Novus N1030T Temperature Controller Instruction manual
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Novus N1030T is a versatile temperature controller with an array of features for precise temperature monitoring and control. It supports various input types including thermocouples (J, K, and T) and Pt100 RTDs, covering a wide temperature range. The controller offers flexible alarm configurations, allowing you to set minimum, maximum, differential, and open sensor alarms to ensure process safety. Additionally, it provides two independent timers with multiple timing modes and start options, enabling you to automate temperature-based events or processes.
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N1030T Controller
TEMPERATURE CONTROLLER AND TIME – INSTRUCTION MANUAL – V2.0x (*)
(*) The V2.0x version also covers V1.05 version controllers, except for the points indicated in the text .
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 the manual thoroughly before installing and operating the equipment.
CAUTION OR DANGER:
Electrical 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 instrument is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired.
INSTALLATION / CONNECTIONS
The controller should be fixed to a panel, following the sequence of steps below:
• Make a cutout in the panel according to the Specifications.
• Remove the controller fixing clip.
• Insert the controller into the cutout from the front of the panel.
• Replace the clip on the controller, pressing until it is well fixed.
INSTALLATION RECOMMENDATIONS
• Input signal conductors should run through the plant separately from output and supply conductors. If possible, in grounded conduits.
• The power supply for electronic instruments must come from a network dedicated to the instrumentation.
• The use of RC FILTERS (noise suppressors) in contactor coils, solenoids, etc. is recommended.
• In control applications, it is essential to consider what can happen when any part of the system fails. The controller internal devices do not provide full protection.
ELECTRICAL CONNECTIONS
The figure below shows the connections on the back panel of the controller:
Figure 1 – Connections of the back panel
NOVUS AUTOMATION
FEATURES
INPUT TYPE DEFINITION
The temperature sensor or input type to be used by the controller is defined during equipment configuration. Table 01 shows the available options:
TYPE
Thermocouple J
Thermocouple K
CODE
Tc j
MEASUREMENT RANGE
Range: -110.0 to 950.0 °C (-166.0 to 1742 °F)
Range: -150.0 to 1370 °C (-238.0 to 2498 °F)
Tc k
Thermocouple T
Pt100
Tc t
Pt
Range: -160.0 to 400.0 °C (-256.0 to 752.0 °F)
Range: -200.0 to 850.0 °C (-328.0 to 1562 °F)
Table 1 – Input types
The input type should be the first parameter to be configured. Any modifications on the input type will automatically change other related parameters. When changing the sensor type, you should check the overall condition of the configuration.
OUTPUTS
The controller has two outputs, OUT1 and OUT2, which have the following characteristics:
OUTPUT OUT1 - Logical pulse, 5 Vdc / 25 mA or
Output Relay SPST-NA / 1.5 A / 240 Vac
OUTPUT OUT2 - Output Relay SPST-NA / 1.5 A / 240 Vac
These outputs can be configured to operate as Control Output ,
Alarm Output , or Output Timers T1 or T2 .
CONTROL OUTPUT (
(TRL
)
The process control output can operate in ON/OFF mode or in PID mode.
To operate in ON/OFF mode, the value set in parameter PB must be
0.0.
With values other than zero in parameter PB , the controller operates in PID mode. The values for the PID parameters can be set automatically with the help of Auto Tune (
ATvN
).
ALARM OUTPUT ( A1 )
The controller has an alarm that can be directed to any of the outputs.
When enabled, you can configure the alarm to operate with one of the functions described in Table 02: off
Alarm off. lo ki
Alarm of absolute minimum value. It triggers when the value of measured PV is below the value defined for alarm Setpoint (SPA1) .
Alarm of absolute maximum value. It triggers when the value of measured PV is above the value defined for alarm Setpoint ( SPA1 ).
PV
SPA1
SPA1
PV
1/7
Differential alarm. In this function, SPA1 represents an error (difference) between CONTROL PV and SP.
PV
PV dif
SP – SPA1 SP SP + SPA1
Positive SPA1
SP + SPA1 SP SP – SPA1
Negative SPA1
Alarm of minimum differential value. It triggers when the PV value is below the defined point by SP-SPA1.
PV PV difl difk
SP – SPA1
Positive SPA1
SP SP SP – SPA1
Negative SPA1
Alarm of maximum differential. It triggers when the PV value is above the defined point by SP+SPA1.
PV PV
SP SP + SPA1 SP + SPA1 SP ierr
Positive SPA1 Negative SPA1
Open sensor alarm. It triggers when the input presents problems such as a broken sensor, poorly connected sensor etc.
Table 2 – Alarm functions
Important note : Alarms configured with the ki , dif , and difk functions also trigger their associated output when a sensor fault is identified and signaled by the controller. A relay output, for example, configured to function as a Higher Alarm ( ki ), will operate when the
SPA1 value is exceeded and when the sensor connected to the controller input is broken.
ALARM INITIAL BLOCKING
The Initial Blocking option inhibits the alarm from being triggered if an alarm condition exists when the controller is turned on. The alarm is triggered only after the process goes through a non-alarm condition.
The initial blocking is useful, for example, when one of the alarms is configured as a minimum value alarm, which can cause the alarm to be triggered as soon as the process is started (a behavior that is often undesired).
The initial block is not valid for the ierr function.
RUN FUNCTION
The RUN function is executed by parameter
RvN
and works as a general switch that allows you to enable or disable the operation of the controller.
When enabled (
RvN
=
YES
), the controller is free to perform all its functions. When disabled (
RvN
=
NO
), its outputs are turned off, and only the functions related to temperature measurement and display will continue to operate.
When lit on the controller front panel, the RUN indicator signals that the control is enabled (
RvN
=
YES
).
You can perform this function by using the key, which switches the control condition between enabled and disabled.
The key must be pressed longer, i.e., > 2 seconds, to disregard accidental touches.
OFFSET
Function that allows you to make a small adjustment to the PV indication. Allows you to correct measurement errors that appear, for example, when replacing the temperature sensor.
NOVUS AUTOMATION
N1030T Controller
TIMERS
The controller has two timers, T1 and T2 , which have different modes of operation. Timing starts with T1 and, at the end of T1 , starts with
T2 .
Only the time count of T1 will be shown in the controller display.
When you set ZERO for any of the timers, the timing and sequence will remain unchanged.
The timers can be associated with any output of the controller: OUT1 or OUT2 . The output associated with T1 turns on during T1 timing, and the output associated with T2 turns on during T2 timing.
A1 and A2 indicators turn on during T1 and T2 timings, respectively.
At the end of T2 , A2 indicator flashes. If T2 = 0, then A1 flashes at the end of T1 . It is possible to configure the controller to disable control (
RvN
=
OFF
) at the end of the timer. In this situation the indicators are also turned off.
TIMING START MODES
There are two starting options:
SP Starts counting when the measured temperature value (PV) reaches the SP value set for the process.
F
Starts the timer by pressing the
< 1 s).
key (short touch
After the timer starts, pressing the key briefly allows you to interrupt the timer only (stop and reset).
When
RvN
=
F
, pressing the key for a long time
(> 2 s) allows you to start the control and the timer.
Pressing the key for a long time allows you to disable control.
Table 3 – Timing start modes
The timing start mode is defined in parameter t.str
of the controller
Timer Cycle.
BEHAVIOR OF THE TEMPERATURE CONTROL AT THE END OF
THE TIMER (T1+T2)
During T1 and T2 interval timing, the temperature control has normal, independent operation. However, at the end of the T1 + T2 interval, it is possible to configure the controller to disable temperature control.
In the controller Timer Cycle, the parameter t.e.(.o
allows you to set the desired condition: on off
Temperature control continues to operate as usual.
Temperature control is disabled by turning off the control output
Table 4 – t.e.(.o
parameter
UP/DOWN TIMER COUNTING
The time counting for both timers can occur in UP or DOWN mode.
In UP mode, counting starts at zero and runs up to the programmed time interval (T1, T2). In DOWN mode, it starts at the programmed time value and counts down to zero.
TIMERS TIME BASE
At the end of the Timing Cycle, the parameter
TBAS
defines the time base to be used. The options are:
Sec
Min
MM:SS. T1 and T2 time intervals are shown in minutes and seconds.
HH:MM. T1 and T2 time intervals are shown in hours and minutes.
Table 5 – Timers time base
2/7
OPERATION
The front panel of the controller can be seen in the figure below:
Figure 2 – Front panel
Display: Displays the measured variable, configuration parameter symbols and their respective values/conditions.
TUNE Indicator : Stays on while the controller is in tuning process.
RUN Indicator : Indicates that the controller is enabled to operate.
OUT Indicator : Signals the control output status.
A1 Indicator : Signals the T1 output status.
A2 Indicator : Signals the T2 output status.
A4 Indicator: Signals the alarm status.
Key : Key used to advance the successive parameters and parameter cycles.
Increment key and Decrement key : Keys used to change parameter values.
Key : Key used to move back parameters during configuration and perform special functions.
OPERATION
When turned on, the controller shows the software version for the first 3 seconds, then it shows the value of the measured process variable (PV) in the upper display. In the lower display, it shows the
SP value. This is the Indication Screen .
To be used in a process, the controller must be previously configured. To configure it, each of the various parameters presented must be defined. You must understand the importance of each parameter and determine a valid condition or value.
The configuration parameters are gathered in affinity groups, called parameter cycles. The parameter cycles are:
1 – Operation / 2 - Tuning / 3 - Timer / 4 - Input / 5 - Calibration
The key gives access to the cycles and their parameters.
By keeping the key pressed, every 2 seconds the controller jumps from one cycle to another, presenting the first parameter of each cycle:
PV >> atvn >> t1 >> type >> PASS >> PV …
To enter the desired cycle, simply release the key when the first parameter is displayed. To move forward through the parameters of that cycle, use the key. To go backwards through the parameters, use the key.
The symbol of each parameter is shown in the upper display. Its respective value/condition is shown in the lower display.
Depending on the configuration protection that you have adopted, the
PASS parameter is shown as the first parameter of the cycle where the protection starts. See Configuration Protection chapter.
N1030T Controller
PARAMETERS DESCRIPTION
OPERATION CYCLE
PV
SP
PV Indication Screen . The upper (red) display shows the measured temperature value ( PV ).
The lower display (green) shows the control Setpoint value ( SP ), which is the desired value for the process temperature.
PV
TM
Display PV and current timer count.
The upper display (red) shows the measured temperature value
(PV).
The lower display (green) shows the current T1 timer count. You cannot set this display.
T1
Timer 1
Rvn
Run
T1 time interval. From 00:00 to 99:59 (HH:MM or
MM:SS).
Parameter shown in this cycle when set in parameter
T.en
.
Enables or disables the controller to act on the process. Acts as a switch, turning the controller on or off.
YES Enabled control.
NO Disabled control.
F Enable/disable command via key (*).
Parameter shown in this cycle when set in parameter r.en
.
Spa1
Alarm SP. Value that defines the alarm actuation point.
For Differential type functions, this parameter specifies error (**) (***).
(*) When set to
RVN
=
F
, the control will be disabled (
NO
) when you turn on the controller or when it returns from a power failure.
(**) This parameter is not displayed when the alarm function is set to off or ierr
.
(***) This parameter is not available for version 1.0x of the controller.
TUNING CYCLE
Atvn
AUTO-TUNE . Enables the automatic tuning of the
PID parameters ( pb , ir , dt ). See PID Parameters
Definition chapter. off
Auto-tune off.
Fast
Perform tuning in fast mode.
Full
Perform tuning in precise mode.
PB
i
r dt
(t
Proportional Band. Value of the term P of the control mode PID, in percentage of the maximum span of the input type.
Adjustable between 0 and 500.0 %.
When set to zero (0), control action is ON/OFF.
Integral Rate. Value of the term I of the PID algorithm, in repetitions per minute (Reset).
Adjustable between 0 and 24.00.
Displayed only if proportional band ≠ 0.
Derivative Time. Value of the term D of the control mode
PID, in seconds.
Adjustable between 0 and 250 seconds.
Displayed only if proportional band ≠ 0.
Cycle time. Pulse Width Modulation (PWM) period in seconds.
Adjustable between 0.5 and 100.0 seconds.
Displayed only if proportional band ≠ 0.
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kyst
A(t
0vt.1
0vt.2
Control hysteresis. Hysteresis value in degrees for
ON/OFF control.
Adjustable between 0 and the measurement range width of the selected input type.
Action control: re
Control with Reverse Action . Appropriate for heating . Turns control output on when PV is below SP. dir
Control with Direct Action . Appropriate for cooling . Turns control output on when PV is above SP.
Operation mode of OUT1 and OUT2 outputs:
Off Not used.
(trL Acts as a temperature controller.
A1
Acts as alarm output. t1
Acts as T1 timer output. t2
Acts as T2 timer output.
TIMER CYCLE
T1
Timer 1
Allows setting T1 time interval. From 00:00 to 99:59
(MM:SS or HH:MM).
T1.en
Timer Enable
Allows displaying the T1 parameter in the main
(operating) cycle.
Yes
Shows T1 in the Operating cycle.
No
Hides T1 from the Operating cycle.
T.dir
Counting direction of T1 timer:
Timer Direction vp
Up counting, starting from zero.
Dn
Down counting.
T.str
Timer Start
Defines starting mode for T1 timer. sP
Starts when PV reaches SP.
T2
Timer 2 f
key starts the timing.
Allows setting the time interval T2 . From 00:00 to
99:59 (MM:SS or HH:MM).
Time interval that output T2 will remain on after the end of timing T1 .
T.e.(.o
Timer End
Control Off ?
Control output behavior after T1 + T2 interval. on
Control output remains active. off
Turns off the control at the end of the timer. tbas time base
Time base for T1 and T2 timers.
Sec
Minutes and seconds (MM:SS).
Min
Hours and minutes (HH:MM).
INPUT CYCLE
Type
Input Type: Sets the input type used by the controller:
J:
Tc J
-110 to 950 °C / -166 to 1742 °F
K:
Tc k
-150 to 1370 °C / -238 to 2498 °F
T:
Tc t
-160 to 400 °C / -256 to 752 °F
Pt100:
Pt
-200 to 850 °C / -328 to 1562 °F
Dp.po
Decimal point. Sets the presentation mode of the decimal point.
vn
i
t
Sets the temperature unit to be used:
( Indication in Celsius. f Indication in Fahrenheit.
NOVUS AUTOMATION
N1030T Controller
offs
Offset. Parameter that allows you to make corrections to the indicated PV value.
Spll
SP Low/High Limit. Sets the lower/upper limits for
Spxl
adjustments to the control SP value.
Does not limit the setting of the Alarm SP value.
Fva1
Alarm functions. Sets the alarm functions from the options in Table 02 .
Sp.a1
Alarm SP. Sets the alarm actuation point. For
Differential type functions, this parameter defines the error (**).
Bla1
Blocking Alarm. This function blocks the alarms (**).
YES Enables initial blocking.
NO Inhibits initial blocking .
Xya1
Alarm hysteresis. Sets the difference between the PV value at which the alarm is turned on and the value at which it is turned off (**).
Sp1.e
Allows to display Sp.a1 parameter in the controller
Operation Cycle (**) (***).
YES
Displays Sp.a1 parameter in the Operation
Cycle.
No
Does not display
Sp.a1 parameter in the
Operation Cycle.
(**) This parameter is not displayed when the alarm function is set to off or ierr
.
(***) This parameter is not available for version 1.0x of the controller.
CALIBRATION CYCLE
All types of input are calibrated in the factory. In case a recalibration is required; it shall be conducted by a specialized professional. In case this cycle is accidentally accessed, do not perform alteration in its parameters.
pass
Password. This parameter is shown before the protected cycles. See Configuration Protection chapter.
(alib
Calibration. Allows you to enable the function to calibrate the controller. When the function is not enabled, the calibration of the related parameters will remain hidden.
inL(
Input Low Calibration. Allows you to enter the value corresponding to the low scale signal applied to the analog input.
ink(
Input High Calibration. Allows you to enter the value corresponding to the full-scale signal applied to the analog input.
rstr
Restore. Allows you to reset the input factory calibrations, disregarding all changes made.
Pas.(
Password Change. Allows you to set a new access password, always different from zero.
Prot
Protection. Allows you to define the protection cycle.
See Table 06 . r.en
RUN Enable
Displays RUN ( rvn
) parameter also in the Operation
Cycle.
Yes
Releases RUN for the Operation cycle. no
Does not release cycle.
RUN for the Operation
Rvn
Run
Enables or disables the controller to act on the process. Acts as a switch, turning the controller on or off.
YES Enabled control.
4/7
NO Disabled control.
F
Enable/disable command via key (****).
Parameter shown in this cycle when set in parameter r.en
.
(****) When set to
RVN
=
F
, the control will be disabled (
NO
) when you turn on the controller or when it returns from a power failure.
CONFIGURATION PROTECTION
The controller allows you to protect its configuration, preventing undue changes. In the Calibration cycle, the Protection parameter
( PROt ) determines the protection cycle to be adopted, limiting access to the cycles, as shown in the table below:
PROTECTION
CYCLE
1
2
3
4
5
PROTECTION CYCLES
Only the Calibration cycle is protected.
Calibration and Input cycles are protected.
Calibration, Input, and Timers cycles are protected.
Calibration, Input, Timers and Tuning cycles are protected.
All cycles are protected, including SP.
Table 6 – Protection cycles
ACESS PASSWORD
To access the Calibration cycle, a password is required. If entered correctly, it allows changing the configuration of the parameters of these cycles, including the Protection parameter ( PROt ).
You can set the password in the Password Change parameter
(
PAS.(
), which is also present in the Calibration cycle. The controllers leave the factory with the password set to 1111.
PROTECTION ACCESS PASSWORD
The controller has a security system that helps prevent the entry of numerous passwords to guess the correct password. Once 5 consecutive invalid passwords are identified, the controller stops accepting passwords for 10 minutes.
MASTER PASSWORD
If you forget the password, you can use the Master Password feature. When entered, this password gives access and allows changing the Password Change parameter (
PAS(
). This makes it possible to set a new password for the controller.
The master password is formed by the last three digits of the controller serial number plus the number 9000.
Example: For a device with serial number 07154321, the master password is 9321.
You can get the serial number of the controller by pressing key for 5 seconds.
PID PARAMETERS DEFINITION
During auto-tuning, the process is controlled in ON/OFF mode at the programmed setpoint (SP). In some processes the auto-tuning can take many minutes to complete. The recommended procedure for its execution is:
• Set the desired SP value for the process.
• On the
Atvn
screen, enable automatic tuning by selecting
FAST or FULL .
The FAST option performs the tuning in the minimum possible time.
The
FULL
option prioritizes a more precise tuning.
NOVUS AUTOMATION
N1030T Controller
During automatic tuning, the TUNE indicator remains lit on the front of the controller. You must wait until the tuning is finished before you can use the controller.
During the execution of the automatic tuning, it is possible to induce
PV oscillations in the process around the setpoint.
If the tuning does not result in satisfactory control, Table 04 presents guidelines on how to correct the process behavior:
PARAMETER VERIFIED PROBLEM
Slow answer
SOLUTION
Decrease
Band Proportional
Great oscillation
Slow answer
Increase
Increase
Rate Integration
Great oscillation
Slow answer or instability
Decrease
Decrease
Derivative Time
Great oscillation Increase
Table 7 – Guidance for manual adjustment of the PID parameters
FACTORY CONFIGURATION
OPERATION CYCLE
PARAMETER
PV
SP
PV
TM
T1
Rvn
DESCRIPTION
PV Indication screen.
PV and current timer count screen.
Set the T1 time interval.
Screen that enables or disables the controller action on the process.
Table 8 – Factory configuration: Operation
PARAMETER
FACTORY
0
-
0.00 no
TUNING CYCLE
PARAMETER DESCRIPTION
Atvn
PB
i
r dt
Enables the auto-tuning function for PID parameters ( pb , ir , dt ).
Proportional band.
Integral rate.
Derivative time
(t
Cycle time PWM.
kyst
Control hysteresis.
A(t
Action control.
0vt.1
Operation mode of OUT1 and
OUT2 outputs .
Table 9 – Factory configuration: Tuning
PARAMETER
FACTORY off
0.0
0.00
0
5.0
1
RE off
TIMER CYCLE
PARAMETER
T1
T1.en
T.dir
T.str
DESCRIPTION
T1 time interval setting.
Allows displaying T1 parameter in the main (operating) cycle.
Counting direction of T1 timer.
Defines starting mode for T1 timer.
PARAMETER
FACTORY
0.00 yes
UP
SP
5/7
PARAMETER DESCRIPTION
T2
T.e.(.o
T2 time interval setting.
Control output behavior after T1 +
T2 interval. tbas
Time base for T1 and T2 timers.
Table 10 – Factory configuration: Timer
PARAMETER
FACTORY
0:20 on sec
INPUT CYCLE
PARAMETER DESCRIPTION
Type
Input type.
Dp.po
Selects the decimal point position.
vn
i
t offs
Selects display indication: Celsius or Fahrenheit.
Parameter that allows to adjust the
PV value indicated.
Spll
Spxl
Defines the lower/upper limit for
SP adjustment.
PARAMETER
FACTORY
J
0 c
0
-110 / 950
(limits do sensor J)
FvaL
Alarm functions.
Sp.aL
Alarm SP.
BlaL
Alarm initial blocking.
XyaL
Alarm hysteresis.
Table 11 – Factory configuration: Input off
0 no
0
CALIBRATION CYCLE
PARAMETER DESCRIPTION
PARAMETER
FACTORY
pass
Access password Input.
0000
(alib
Enables calibrating the indicator. in in
L
K
(
(
Enter the value corresponding to the low scale signal applied to the analog input.
Enter the value corresponding to the full-scale signal applied to the analog input.
rstr
Restores input factory calibration.
Pas.(
Restores input factory calibration.
Prot
Sets up the protection cycles. r.en
Rvn
Shows the parameter RUN ( rvn
) also in the Operation Cycle.
Display for enable or disable the controller action on the process.
Table 12 – Factory configuration: Calibration no
0000
0000 no
0000
1 yes no
NOVUS AUTOMATION
N1030T Controller
MAINTENANCE
PROBLEMS WITH THE CONTROLLER
Wiring errors and improper programming represent most of the problems that can occur when using the controller. A final review can avoid wasted time and losses.
The controller presents some messages that are intended to help you identify problems.
MESSAGE PROBLEM DESCRIPTION
----
Err1
Err6
Open input. No sensor or signal.
Connection and/or configuration problems.
Check the wiring and the configuration.
Table 13 – Error messages
Other error messages displayed by the controller represent internal damages that necessarily imply sending the equipment for maintenance.
INPUT CALLIBRATION
All controller input types leave the factory already calibrated.
Recalibration is not recommended for inexperienced operators. If it is necessary to recalibrate an input, proceed as follows: a) In the type parameter, set the input type to be calibrated. b) Program the lower and upper SP limits for the extremes of the input type. c) Access the Calibration cycle. d) Enter the access password. e) In parameter (alib , enable the calibration by setting YES . f) With an electrical signal simulator, apply to the input terminals a signal near the lower limit of the configured input measurement range. g) In the nL( parameter, use the and keys to make the display indicate the expected value for the applied signal. Then press the key. h) Apply a signal near the upper limit of the configured input measurement range to the input terminals. i) In the ink( parameter, use the and keys to make the display indicate the expected value for the applied signal. Then, press the key until returning to the PV Indication Screen . j) Validate the 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.
6/7
SPECIFICATIONS
DIMENSION : .............................................................. 48 x 48 x 35 mm
Approximate weight: ............................................................... 60 g
POWER SUPPLY :
Standard Model ........................100 to 240 Vac (±10 %), 50/60 Hz
............................................ 48 to 240 Vdc (±10 %)
24 V Model:....................... 12 to 24 Vdc / 24 Vac (-10 % / +20 %)
Maximum Consumption: ........................................................ 5 VA
ENVIRONMENTAL CONDITIONS :
Operation Temperature: ............................................... 0 to 50 °C
Relative Humidity: ................................................... 80 % @ 30 °C
For temperatures above 30 °C, reduce 3 % for each °C
Internal use; Category of installation II, Pollution Degree 2; altitude < 2000 meters
INPUT : ..... Thermocouples J ; K ; T and Pt100 (according of Table 01 )
Internal Resolution: ...................................... 32767 levels (15 bits)
Display Resolution: ................. 12000 levels (from -1999 up 9999)
Rate of input reading: ...........................................up 5 per second
Accuracy: .. Thermocouples J , K , T : 0.25 % of the span ±1 °C (*)
................................................................ Pt100: 0.2 % of the span
Input impedance: .................. Pt100 and thermocouples: > 10 M Ω
Pt100 Measurement: ............................. 3-wire type, ( α = 0.00385)
With compensation for cable length. Excitation current of 0.170 mA.
OUTPUTS: OUT1: ................................ Voltage pulse, 5 Vdc / 25 mA
................... Relay SPST; 1.5 A / 240 Vac / 30 Vdc
OUT2: .................. Relay SPST; 1.5 A / 240 Vac / 30 Vdc
FRONT PANEL : ......................... IP65, Polycarbonate (PC) UL94 V-2
HOUSING : .................................................... IP30, ABS+PC UL94 V-0
ELECTROMAGNETIC COMPATIBILITY : ............... EN 61326-1:1997 and EN 61326-1/A1:1998
EMISSION : ............................................................ CISPR11/EN55011
IMMUNITY : ...................... EN61000-4-2, EN61000-4-3, EN61000-4-4,
EN61000-4-5, EN61000-4-6, EN61000-4-8 and EN61000-4-11
SAFETY : .......................... EN61010-1:1993 and EN61010-1/A2:1995
SPECIFIC CONNECTIONS FOR PIN TERMINALS.
PWM PROGRAMABLE CYCLE: From 0.5 up 100 seconds.
START-UP: After 3 seconds connected to the power supply.
CERTIFICATIONS: CE, UKCA, UL.
IDENTIFICATION
N1030T - A - B
A: Outputs Features
PR : OUT1 = Pulse / OUT2 = Relay
RR : OUT1 = Relay / OUT2 = Relay
B: Power Supply
(Blank) : .................................................................Model standard
............................ 100~240 Vac / 48~240 Vdc; 50~60 Hz
24V : ............................................................................ Model 24 V
................................................................ 12~24 Vdc / 24 Vac
WARRANTY
The warranty conditions are on our website www.novusautomation.com/warranty .
NOVUS AUTOMATION
N1030T Controller
7/7
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Key Features
- Supports multiple thermocouple and RTD inputs for accurate temperature sensing
- PID control algorithm ensures precise temperature regulation
- Two independent outputs for flexible control and alarm functions
- Built-in timers for automated processes and event scheduling
- Alarm functions with initial blocking option for improved reliability
- Easy-to-use interface with clear display and intuitive navigation
- Compact design for space-saving installation
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Frequently Answers and Questions
What types of temperature sensors can be used with the N1030T?
Can the N1030T perform both heating and cooling control?
How many alarm functions are available on the N1030T?
Can the N1030T be used for timer-based control?
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Table of contents
- 1 N1030T Controller
- 1 TEMPERATURE CONTROLLER AND TIME – INSTRUCTION MANUAL – V2.0x (*)
- 1 SAFETY ALERTS
- 1 INSTALLATION / CONNECTIONS
- 1 INSTALLATION RECOMMENDATIONS
- 1 ELECTRICAL CONNECTIONS
- 1 FEATURES
- 1 INPUT TYPE DEFINITION
- 1 OUTPUTS
- 1 CONTROL OUTPUT ((trl)
- 1 ALARM OUTPUT (a1)
- 2 ALARM INITIAL BLOCKING
- 2 RUN FUNCTION
- 2 OFFSET
- 2 TIMERS
- 2 TIMING START MODES
- 2 BEHAVIOR OF THE TEMPERATURE CONTROL AT THE END OF THE TIMER (T1+T2)
- 2 UP/DOWN TIMER COUNTING
- 2 timers TIME BASE
- 3 OPERATION
- 3 OPERATION
- 3 PARAMETERS DESCRIPTION
- 3 OPERATION CYCLE
- 3 TUNING CYCLE
- 4 TIMER CYCLE
- 4 INPUT CYCLE
- 4 CALIBRATION CYCLE
- 5 CONFIGURATION PROTECTION
- 5 ACESS PASSWORD
- 5 PROTECTION ACCESS PASSWORD
- 5 MASTER PASSWORD
- 5 PID PARAMETERS DEFINITION
- 5 FACTORY CONFIGURATION
- 5 OPERATION CYCLE
- 5 TUNING CYCLE
- 5 TIMER CYCLE
- 6 INPUT CYCLE
- 6 CALIBRATION CYCLE
- 6 MAINTENANCE
- 6 PROBLEMS WITH THE CONTROLLER
- 6 INPUT CALLIBRATION
- 7 SPECIFICATIONS
- 7 IDENTIFICATION
- 7 WARRANTY