TC10NM TEMPERATURE CONTROLLER OPERATING MANUAL MODEL

TC10NM TEMPERATURE CONTROLLER OPERATING MANUAL MODEL
TC10NM
OPERATING MANUAL
TEMPERATURE CONTROLLER
(Modbus, Size 48 × 96mm)
MODEL
TC10NM
Cont ent s
BEFORE USE ..............................................................................................................................2
POINTS OF CAUTION.................................................................................................................2
COMPONENT IDENTIFICATION.................................................................................................3
EXTERNAL DIMENSIONS unit: mm (inch)...................................................................... 3
INSTALLATION.............................................................................................................................4
TERMINALS CONNECTIONS.....................................................................................................5
FUNCTION DESCRIPTIONS.......................................................................................................6
CONNECTION DIAGRAMS.........................................................................................................7
SYSTEM CONFIGURATIONS & CONTROL EXAMPLES............................................................7
MODBUS COMMUNICATION ....................................................................................................8
FUNCTION BLOCK DIAGRAM.................................................................................................. 11
UNIVERSAL INPUT.................................................................................................................... 12
CONTROL OUTPUT.................................................................................................................. 15
LOOP.......................................................................................................................................... 17
BANK..........................................................................................................................................22
EVENT INPUT............................................................................................................................27
CT INPUT...................................................................................................................................28
AUTO-TUNING...........................................................................................................................30
DISPLAY SETTING....................................................................................................................31
MODBUS COMMUNICATION CONFIGURATION.....................................................................31
DISPLAY.....................................................................................................................................32
CHARACTER SET.....................................................................................................................32
BUTTONS...................................................................................................................................33
ERROR MESSAGES..................................................................................................................40
LIGHTNING SURGE PROTECTION..........................................................................................40
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
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TC10NM
BEFORE USE ....
POINTS OF CAUTION
Thank you for choosing M-System. Before use, please check
contents of the package you received as outlined below.
If you have any problems or questions with the product,
please contact M-System’s Sales Office or representatives.
■ CONFORMITY WITH EC DIRECTIVES
• This equipment is suitable for Pollution Degree 2 and Installation Category II. Reinforced insulation (signal input or output or Modbus to power input: 300V) and basic
insulation (signal input to output to Modbus: 300V) are
maintained. Prior to installation, check that the insulation class of this unit satisfies the system requirements.
• The equipment must be mounted inside a suitable fire
enclosure.
•Altitude up to 2000 meters
•The equipment must be installed such that appropriate
clearance and creepage distances are maintained to conform to CE requirements. Failure to observe these requirements may invalidate the CE conformance.
•In order to enable the operator to turn off the power input
immediately, install a switch or a circuit breaker according to the relevant requirements in IEC 60947-1 and IEC
60947-3 and properly indicate it.
■ PACKAGE INCLUDES:
Temperature controller (controller + CJC sensor, 1 pcs)........(1)
Mounting bracket…..............................................(1) pair
Watertight sealing.........................................…..……...(1)
■ MODEL NO.
Confirm that the model number described on the product is
exactly what you ordered.
■ OPERATING MANUAL
This manual describes necessary points of caution when
you use this product, including installation and connection.
This controller is programmable by using the PC Configurator Software. For detailed information on the PC configuration, refer to the TC10CFG users manual. The TC10CFG PC
Configurator Software is downloadable at M-System’s web
site: http://www.m-system.co.jp
n POWER INPUT RATINGS
•Operational range & power consumption: Check the
power rating for the unit marked on the product.
100 – 240V AC rating: 85 – 264V, 47 – 66 Hz, Approx. 6 – 8 VA
■ ENVIRONMENT
•Indoor use
•When heavy dust or metal particles are present in the air,
install the unit inside proper housing with sufficient ventilation.
•Do not install the unit where it is subjected to continuous
vibration. Do not subject the unit to physical impact.
•Environmental temperature must be within -10 to +55°C
(14 to 131°F) with relative humidity within 5 to 90% RH
in order to ensure adequate life span and operation.
■ REQUIREMENTS TO ENSURE IP 65
•Observe the designated panel cutout size (W45 × H92 mm).
•The watertight sealing included in the product package
must be placed behind the front cover.
•Both mounting brackets must be fastened tightly until
they hit the panel.
•Confirm visually that the sealing is not contorted or excessively run off the edge after installation.
■ WIRING
•Do not install cables (power supply, input, output and
communication) close to noise sources (relay drive cable,
high frequency line, etc.).
•Do not bind these cables together with those in which
noises are present. Do not install them in the same duct.
■ AND....
•The unit is designed to function as soon as power is supplied, however, a warm up for 10 minutes is required for
satisfying complete performance described in the data
sheet.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
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TC10NM
COMPONENT IDENTIFICATION
■ FRONT VIEW
■ REAR VIEW
Cold Junction Compensation (CJM)
Loop
status indicators
PV Display
SP/MV Display
SP/MV
Esc
1
11
2
12
3
13
4
14
5
15
6
16
7
17
8
18
9
19
10
20
Configuration Jack
Operation Buttons
■ LOOP STATUS INDICATOR
Run : Green LED turns on while loop is in operation.
Man : Green LED turns on during manual mode.
Local : Unused, off.
AT
: Green LED turns on during auto-tuning.
Out1 : Green LED turns on during heating control output.
Out2 : Green LED turns on during cooling control output.
Bank1 : Green LED turns on when bank 1 is chosen.
Bank2 : Green LED turns on when bank 2 is chosen.
Bank3 : Green LED turns on when bank 3 is chosen.
Bank4 : Green LED turns on when bank 4 is chosen.
Alarm1: Red LED turns on at alarm 1.
Alarm2: Red LED turns on at alarm 2.
Alarm3: Red LED turns on at alarm 3.
Alarm4: Red LED turns on while setting is saving to the non-volatile memory.
EXTERNAL DIMENSIONS
unit: mm (inch)
4 – M3 Screw
20 – M3 Terminal Screw
Terminal Cover
1
11
2
12
3
13
4
14
5
15
6
16
7
17
8
18
9
19
10
20
92 (3.62)
Mounting Bracket
96 (3.78)
103(4.06)
Watertight Sealing
2 (.08)
48(1.89)
8 (.31)
98 (3.86)
45(1.77)
100 (3.93)
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
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TC10NM
■ HOW TO MOUNT THE UNIT ON A PANEL
1) Remove the mounting brackets.
2)Remove the terminal cover and insert it into the panel
cutout prior to insertion of the unit.
3) Insert the unit into the panel cutout. The watertight packing must be in place to conform degree of protection, IP65.
Do not remove it.
4)Push the mounting brackets into the grooves on both
sides of the rear module, until they hit the panel’s rear
side.
INSTALLATION
■ PANEL CUTOUT unit: mm (inch)
Pitch ≥147 (5.79)
−0
92 +0.8
−0
45 +0.8
Panel
Mounting Bracket
Pitch ≥75 (2.95)
Mounting bracket: 0.5 – 10 (0.02 to 0.39)
■ CAUTION
•Degree of protection, IP65 is applicable to the front panel
of the unit with single mounting according to the specified
panel cutout. Not applicable in case of re-mounting. After
installation ensure waterproof of the mounting.
•Install the unit to vertical panel so that its function buttons are at the bottom side. Installing by other direction
will cause degradation of life span or performance due to
rise of the internal temperature.
•Ensure that there is sufficient space for ventilation inside
a panel. Do not install above the devices that generate
high heat such as heaters, transformers or resistors. Observe at the minimum of 55 mm (2.2”) in vertical direction, minimum of 30 mm (1.2”) in horizontal direction for
maintenance purpose.
Watertight Sealing
■ HOW TO REMOVE THE TERMINAL BLOCK
•The terminal block is separable in two pieces. Loosen two
screws on top and bottom of the terminal block to separate.
•Be sure to turn off the power supply, input / output signal
and communication signal before separating the terminal
block.
•Each terminal block has ID keys so that it can be inserted
to applicable terminal socket only.
Terminal Block Screw
Terminal Block ID Key
Terminal
Block
■ HOW TO CONNECT CONFIGURATOR CABLE
•The Configuration jack is on the bottom of the unit.
Separable
Terminal Block ID Key
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
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TC10NM
TERMINALS CONNECTIONS
Pv1
UNIVERSAL INPUT
CT 1
Di 1
CT 2
11
3
12
4 DA
13
5 DB
14
16 +
15
17 −
8
6 +
9
7 −
10
18 +
CONFIG.JACK
19 +
20 −
TERMINATOR
MODBUS
Mv1
Mv2
Do1
Do2
1 U
2 V
■ UNIVERSAL INPUT CONNECTION (Pv1) e.g.
■ CT1 CONNECTION e.g.
• DC Current (0 – 20mA DC)
• DC Voltage (-1000 – +1000mV DC)
• DC Voltage (-10 – +10V DC)
• Clamp-on Current Sensor
k
12
l
INPUT
– 13
14
15
+
11
CJC
SENSOR
12
+
• Mechanical Contact
Di 1
13
8
Di2
9
10
• RTD/Resistor (3-wire)
A
B
B
■ CONTROL OUTPUT 2 CONNECTION e.g.
6 +
■ DISCRETE INPUT CONNECTION e.g.
–
comp. leadwire
Mv1
17 –
Load Side
• Thermocouple
–
■ CONTROL OUTPUT 1 CONNECTION e.g.
16 +
Power Side
+ 11
POWER
11
12
13
• Open Collector
+
Di 1
Di2
+
–
• RTD/Resistor (2-wire)
A
11
B
12
Mv2
7 –
■ CONTROL OUTPUT 3 & 4 CONNECTION e.g.
Do1
18
Do2
19
+
20
–
+
–
8
9
10
13
• Potentiometer
MAX
MIN
+ 11
– 12
13
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
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TC10NM
FUNCTION DESCRIPTIONS
■ UNIVERSAL INPUT
• Input types
(1) DC: 0 − 20mA / -1000 − +1000mV / -10 − +10V
(2) Potentiometer: Max. total resistance 4000Ω
(3) Resistor: Max. 4000Ω
(4) ‌RTD: Pt 100 / Pt 500 / Pt 1000 / Pt 50Ω / JPt 100 / Ni 508.4Ω / Cu 10
(5) ‌Thermocouple: (PR) / K / E / J / T / B / R / S / C / N / U /
L/P
• Input point can be assigned respectively with one of the
selections (1) through (5).
• Sampling cycle: 100 milliseconds
•Burnout detection available for potentiometer, resistor,
RTD and thermocouple inputs
• Cold junction compensation sensors for thermocouple input included in the product package
• Fine input adjustment available
• DC, potentiometer and resistor inputs can be scaled into
temperature ranges.
• First order lag filter for input signals
■ CONTROL OUTPUT
• Output types
(1) ‌12V DC pulse / 0 − 20mA DC / 0 − 10V DC selected by model number suffix code when ordering
(2) Open collector
•Two output points by the selection (1) plus two output
points with the selection (2)
• Control cycle 1.0 to 99.9 seconds
(100 msec. fixed for control output 0 − 20 mA and 0 − 10
V DC)
• Output resolution 1 millisecond
• PV, SP and MV signals can be scaled and provided as duty
ratio output; Alarm contact output (ON / OFF) also available
• Minimum ON / OFF pulse width can be specified for relay
life protection
■ EVENT INPUT
•Two discrete input points can be assigned to a specific
event.
• Event types
Switching banks / Switching operation / Switching manual / auto mode
■ CT INPUT
• Input type
M-System clamp-on current sensor (model: CLSE)
• Input point can be assigned respectively to monitor specific control output status.
• Enable to watch heater wire break, SSR shortcircuit failure and overload at once.
• Control output must be turned on for at the minimum of
110 milliseconds to detect a heater wire break; must be
turned off for at the minimum of 200 milliseconds to detect an SSR shortcircuit failure.
■ COMMUNICATION
• Monitoring and setting can be performed easily with PC
Configurator Software (model: TC10CFG).
• Various values can be read and written via Modbus communication.
■ BUTTON OPERATION
• Monitoring and setting can be performed with button operation.
■ CONTROL LOOP
• Control strategies
(1) Standard PID control
(2) ‌Heating-cooling PID control (independent PID operation for heating and cooling)
(3) ‌Heating-cooling ON / OFF control
(heating-only or cooling-only output is possible.)
• Control loop can be assigned respectively to one of the selections (1) through (3).
• Limit cycle method auto-tuning
• Direct / reverse action selectable for standard PID control
• MV tracking function: MV in manual mode is carried on
into auto mode.
• High / low limits selectable for SP and MV values
• Specific MV values applicable at STOP / abnormality.
• Three PV alarm modes selectable
• Four bank settings available; Banks can be switched during operation.
• Bank setting
SP / SP rise ramp / SP fall ramp / P / I / D / Cooling P /
Cooling I / Cooling D / Heating sensitivity / Cooling sensitivity / Deadband / PV alarm high / low limits
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
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TC10NM
CONNECTION DIAGRAMS
■ MASTER CONNECTION
TERMINATOR
HOST PC
TX+/RX+
TX–/RX–
SG
RX+
RX–
TC10NM
DA
DB
TC10NM
DA
DB
*1
NO.
ID
FUNCTION
4
5
DA
DB
DA
DB
*1. For using internal terminator, short-accross terminals 3 and 4.
■ SCREW TERMINAL
Torque: 0.5 N·m
3.3 (.13) max
6 (.24) max
■ SOLDERLESS TERMINAL
Refer to the drawing on the right.
Recommended manufacturer: Japan Solderless Terminal
MFG.Co.Ltd, Nichifu Co.,ltd
Applicable wire size: 0.25 to 1.65 mm2 (AWG 22 to 16)
mm (inch)
SYSTEM CONFIGURATIONS & CONTROL EXAMPLES
■ Heating ON/OFF control and heater wire break detection
1. Installation example:
• Temperature Controller (model: TC10NM)
• Clamp-on Current Sensor (model: CLSE)
• Oven
• Heater
• Relay
• Temperature sensor
2. Proccess until start operating:
TC10NM
UNIVERSAL INPUT 1 (Pv1)
Turn ON power supply
CT INPUT 1
Set input sensor type and range
Set CT input to wire break detection
CONTROL OUTPUT 3 (Do1)
Temp. Sensor
Select control mode (ON/OFF Control)
Specify target temperature (SP)
Ry
Heater
CLSE
Relay
Relay Power
Heater Power
Select operation mode (auto)
Start operation
Oven
■ Heating and cooling control (PID)
1. Installation example:
• Temperature Controller (model: TC10NM)
• Object to heat/cool
• Temperature sensor
2. Proccess until start operating:
UNIVERSAL INPUT 1 (Pv1)
TC10NM
Turn ON power supply
Set input sensor type and range
Control output 1 (Mv1)
Select control mode (PID)
Control output 2 (Mv2)
Temp. Sensor
Cold water
Set deadband
Specify target temperature (SP)
Object to
heat/cool
Hot water
Select operation mode (auto)
Start operation
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
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TC10NM
MODBUS COMMUNICATION
This device conforms with Modbus-RTU protocol (MODBUS APPLICATION PROTOCOL V1.1a / Modbus over Serial Line
Specification & Implementation Guide V1.0).
The following communication parameters are selectable.
COMM. PROPERTY
SELECTION
Node address
1 to 247
Baud rate
4800 bps
9600 bps
19200 bps
38400 bps (*)
57600 bps
Parity bit
None
Odd (*)
Even
Stop bit
1 bit (*)
2 bits
(*) Factory setting
When appropriately set, the host PC connected via RS-485 can read measurands from and write configurations (setting) to the device.
All registers are assigned to Holding Registers, can be read out using Read Holding Registers command. If reading an address with no assigned register is attempted, ‘0’ is given.
Write Multiple Registers command is used to write registers. If writing an address with no assigned register is attempted,
‘Exception’ is given.
FUNCTION CODE
COMMAND
RECOMMENDED TIME OUT VALUE
03
Read Holding Registers
0.5 seconds
04
Read Input Registers
0.5 seconds
06
Preset Single Register
2 seconds
16
Write Multiple Registers
2 seconds
These commands enable reading measurands and writing configurations.
Registers are represented in 16-bit integers. All registers are in the form of integer unless specifically given in the explanations.
CAUTION : DO NOT apply new setting via Modbus and the front control buttons at once.
It is recommended to wait for a time period indicated under ‘recommended time out value’ in the above table to receive a
response for a command. If no response is received for these time periods, take appropriate error processing such as retrying.
■ READING EXAMPLE
To read the MV value in the table below.
ADDRESS
5
PARAMETER
UNIT
0.01%
Loop 1, Heating MV (control output)
If 7510 is read, the register value is converted into actual engineering unit value by the following equation:
7510 × 0.01 = 75.10%
■ WRITING EXAMPLE
To write 40.0 at the SP value in the table below.
ADDRESS
1153
PARAMETER
Loop 1, SP (setpoint)
RANGE
-3200.0 to +3200.0
(decimal by input 1 decimal setting)
DEFAULT
25.0
With the decimal setting ‘1’, write in ‘400’ for ‘400.’
With the decimal setting ‘2,’ write in ‘4000’ for ‘40.00.’
With the setting ‘3,’ ‘40000’ cannot be written as the maximum range is limited up to 32000.
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TC10NM
■ READING
The following parameters can be read out.
ADDRESS
1
2
3
4
5
6
7
67
68
69
PARAMETER
Loop 1, Status 1 (See the table below)
Loop 1, Status 2 (See the table below)
Loop 1, PV (present value)
Loop 1, Internal SP (setpoint value)
Loop 1, Heating MV (control output)
Loop 1, Cooling MV (control output)
Loop 1, Local SP (setpoint value)
CT input 1, Current value
CT input 1, Current value at the control output ON *1
CT input 1, Current value at the control output OFF *1
UNIT
----Input 1 decimal setting
Input 1 decimal setting
0.01%
0.01%
Input 1 decimal setting
0.1A
0.1A
0.1A
*1. ‘-1’ (-0.1A) is set when the Controller is unable to measure if the relevant control output does not remain ON or OFF for
the defined time duration in a control cycle. No CT alarm is judged in this case.
Status 1 is assigned with the following status indicators.
STATUS 1
BIT
LSB
STATUS 2
MSB
LSB
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
0
1
2
3
4
5
6
7
STATUS
RUN
AUTO
--SP_LAMP
AT
----INP_ERR
INP_R_ERR
ALM_HB
ALM_SB
ALM_OC
--ALM_PV1
ALM_PV2
ALM_PV3
EV1
EV2
BANK0
BANK1
POUT_1 *2
POUT_2 *2
POUT_3 *2
POUT_4 *2
PARAMETER
Loop operating condition
Loop control mode
--SP lamp operation
Auto-tuning
----Input error
Remote SP input error
Heater wire break alarm
SSR shortcircuit failure alarm
Overload alarm
--PV 1 alarm
PV 2 alarm
PV 3 alarm
Event input 1
Event input 2
Bank bit 0
Bank bit 1
Control output 1
Control output 2
Control output 3
Control output 4
DATA 0
STOP
MANUAL
--Not operating
Not running
----Normal
Normal
Normal
Normal
Normal
--Normal
Normal
Normal
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
DATA 1
RUN
AUTO
--Operating
Running
----Error
Error
Alarm
Alarm
Alarm
--Alarm
Alarm
Alarm
ON
ON
ON
ON
ON
ON
ON
ON
*2. Control output status is read. This bit is always at ‘1’ (ON) with DC output.
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TC10NM
■ SETPOINT VALUE SETTING
SP for each loop can be changed via Modbus.
ADDRESS
7
PARAMETER
Loop 1, Local SP (setpoint value)
RANGE
-3200.0 to +3200.0
(decimal by input 1 decimal setting)
DEFAULT
---
These registers are overwritten by the SP in bank setting when the power supply is turned off or when the bank is switched.
Write the SP in the bank setting if the values should be maintained.
■ COMMAND EXECUTION
Predefined commands for each loop can be issued via Modbus by writing in the following addresses.
ADDRESS
65
PARAMETER
Loop 1, Command
RANGE
See the table below.
DEFAULT
---
Available commands are as in the table below:
COMMAND
1
2
3
4
8
9
10
16
17
18
19
24
25
26
27
PARAMETER
Set loop operation to RUN
Set loop operation to STOP
Set control mode to AUTO
Set control mode to MANUAL
Reset all latched alarms in the loop
Reset all latched PV alarms
Reset all latched CT alarms
Switch to Bank 0
Switch to Bank 1
Switch to Bank 2
Switch to Bank 3
Run auto-tuning in the conditions specified by Bank 0
Run auto-tuning in the conditions specified by Bank 1
Run auto-tuning in the conditions specified by Bank 2
Run auto-tuning in the conditions specified by Bank 3
Loop operation, control mode and bank switching operation can be executed by an event input, however, using both commands
and event inputs may cause an unexpected result. We recommend that a function assigned to an event input be not controlled
by a command.
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TC10NM
FUNCTION BLOCK DIAGRAM
The figure below is a simplified function block diagram showing relations between the I / O signal and the setting.
Universal Input 1
Event Input 1, 2
PV1
Di1
Input type
Di2
Event Input Assignment
Input 0%, 100%
Input scaling 0%, 100%
Decimal
RUN / STOP
Temperature unit
AUTO / MANUAL
BANK SWITCHING
Input zero adjustment
Input span adjustment
Filter time constant
Bank 1
SP
Input 1 PV
Bank 2
SP
Bank 3
SP
Bank 4
SP
Bank Switching
Local SP1
SP high/low limit
SP ramp
Loop 1
PID or ON/OFF control
AUTO
MV value at STOP
Loop 1 MV
RUN
MANUAL
STOP
AUTO
Input 1 PV
Local SP1
Alarm
Output Assignment
Output 0%, 100%
Output scaling 0%, 100%
Output 0%, 100%
Output scaling 0%, 100%
Output 0%, 100%
Output scaling 0%, 100%
Output 0%, 100%
Output scaling 0%, 100%
MV1
MV2
Do1
Do2
Control Output 1
Control Output 2
Control Output 3
Control Output 4
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TC10NM
UNIVERSAL INPUT
The Controller has one universal input (universal input 1) which can be assigned for temperature inputs. In addition to RTD
and thermocouples, resistor, DC and potentiometer inputs are also usable. The resistor, DC and potentiometer input is scaled
into a temperature range.
Universal input 1 is assigned as PV input signal for loop 1.
• DC Voltage (-10 – +10V DC)
• DC Current (0 – 20mA DC)
• DC Voltage (-1000 – +1000mV DC)
• RTD / Resistor (3-wire)
A
B
INPUT
B
• Thermocouple
• RTD / Resistor (2-wire)
–
+
Universal Input 1
Loop 1
A
B
CJC
SENSOR
• Potentiometer
MAX
comp. leadwire
MIN
n INPUT TYPE
ADDRESS
129
PARAMETER
Universal input 1, Input type
SET VALUE
0
1
2
3
4
5
6
7
8
9
10
14
15
16
17
PARAMETER
DC 0 − 20mA
DC -1000 − +1000mV
DC -10 − +10V
POT 0 − 4000Ω
POT 0 − 2500Ω
POT 0 − 1200Ω
POT 0 − 600Ω
POT 0 − 300Ω
POT 0 − 150Ω
Resistor 0 − 4000Ω
RTD Pt 100
RTD Pt 500
RTD Pt 1000
RTD Pt 50Ω
RTD JPt 100
RANGE
See the table below.
SET VALUE
20
22
24
25
26
27
28
29
30
31
32
33
34
35
36
DEFAULT
10
PARAMETER
RTD Ni 508.4Ω
RTD Cu 10
TC (PR)
TC K
TC E
TC J
TC T
TC B
TC R
TC S
TC C
TC N
TC U
TC L
TC P
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TC10NM
n WIRING
Choose either 2 wires or 3 wires when the input type is set to RTD or resistor.
ADDRESS
130
PARAMETER
Universal input 1, Wiring
RANGE
2 wires
3 wires
DEFAULT
3 wires
n BURNOUT
Choose burnout function when the input type is set to thermocouple, RTD, resistor or potentiometer.
ADDRESS
131
PARAMETER
Universal input 1, Burnout
RANGE
Disable
Enable
DEFAULT
Enable
n COLD JUNCTION COMPENSATION
Choose cold junction compensation by the cold junction temperature sensor included in the product package for thermocouple
input.
When the setting is disabled, the terminal temperature is assumed to show 0°C so that the measured emf is directly converted
into temperature.
ADDRESS
132
PARAMETER
Universal input 1, Cold junction compensation
RANGE
Disable
Enable
DEFAULT
Enable
n TEMPERATURE UNIT
Choose temperature unit used for thermocouple or RTD input.
The setting is applied only to the unit, but not to the temperature values such as SP. If you have changed the unit setting, be
sure to check and change all other temperature values.
ADDRESS
133
PARAMETER
Universal input 1, Temperature unit
RANGE
degC
degF
DEFAULT
degC
n INPUT ZERO ADJUSTMENT / INPUT SPAN ADJUSTMENT
Input signals can be finely adjusted.
The following equation is applied to the engineering unit value data.
[Adjusted value] = [input] × [input span adjustment] + [input zero adjustment]
ADDRESS
134
PARAMETER
Universal input 1, Input zero adjustment
135
Universal input 1, Input span adjustment
INPUT TYPE
0 − 20mA DC
-1000 − +1000mV DC
-10 − +10V DC
Thermocouple
RTD, Resistor
Potentiometer
RANGE
-300.00 to +300.00
(unit as in the table below)
0.8500 to 1.1500
DEFAULT
0.00
1.0000
UNIT
mA
mV
V
mV
Ω
%
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TC10NM
n INPUT 0% / INPUT 100% / INPUT SCALING 0% / INPUT SCALING 100%
DC, resistor and potentiometer input signals can be converted into a temperature range.
Specify the original input range from INPUT 0% to INPUT 100%, and the converted range from INPUT SCALING 0% to
INPUT SCALING 100%.
ADDRESS
136
137
138
139
PARAMETER
Universal input 1, Input 0%
Universal input 1, Input 100%
Universal input 1, Input scaling 0%
Universal input 1, Input scaling 100%
RANGE
-1000.0 to +4000.0 *3
(unit as in the table below)
DEFAULT
4.0
20.0
0.0
100.0
-3200.0 to +3200.0
(decimal by input 1 decimal setting)
*3. Signed words have the maximum range up to +32767. +32768 to +40000 is internally converted into -32768 to -25536 so
that the entire range up to 40000 can be within the normal range limits.
INPUT TYPE
0 − 20mA DC
-1000 − +1000mV DC
-10 − +10V DC
Resistor
Potentiometer
UNIT
mA
mV
V
Ω
%
n FILTER TIME CONSTANT
First order lag filter can be applied to the input signal. Time constant setting is available from 0.5 to 60.0 seconds. Setting
0.0 disables the filter function.
The filter operates just like a typical CR filter. With a step input, the filter output takes the preset time constant time to reach
63% value.
ADDRESS
140
PARAMETER
Universal input 1, Filter time constant
RANGE
0.0, 0.5 to 60.0 seconds
DEFAULT
0.0
n DECIMAL
Choose the number of decimal places for PV (input) signal.
The setting affects the input and relevant loop, and the output setting assigned to its loop’s control output.
Those parameters affected by the setting are indicated with ‘decimal by input 1 decimal setting.
ADDRESS
141
PARAMETER
Universal input 1, Decimal
RANGE
0, 1, 2, 3 (digits)
DEFAULT
1
PV and relevant ranges may be limited as shown in the table below depending upon the decimal setting.
DECIMAL
0
1
2
3
RANGE
-32000 − +32000
-3200.0 − +3200.0
-320.00 − +320.00
-32.000 − +32.000
Related ranges are not automatically scaled when the setting is changed. Be sure to check and change all other values.
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TC10NM
CONTROL OUTPUT
The Controller has four control outputs (control output 1 through 4) which are assigned to control output, alarm output and
other outputs.
Basic output channel configuration is determined by the model number suffix codes as shown below.
Control output 1, Control output 2
TC10NM-P-x
TC10NM-A-x
TC10NM-V-x
Control output 3, Control output 4
Open collector output
12V DC pulse output
0 − 20mA DC output
0 − 10V DC output
Each output channel can be assigned with alarm output (ON / OFF) or with control output (continuous value) as explained
in the table below.
OUTPUT
12V DC pulse
ON / OFF
ON at 12V; OFF at 0V
0 − 20mA DC
ON at 100% scaled current; OFF at 0%
scaled current
ON at 100% scaled voltage; OFF at 0%
scaled voltage
ON at closed state; OFF at open state
0 − 10V DC
Open collector
CONTINUOUS VALUE
Scaled output range is converted into a
proportional duty ratio output
Scaled output range is converted into a
proportional current range
Scaled output range is converted into a
proportional voltage range
Scaled output range is converted into a
proportional duty ratio output
n OUTPUT ASSIGNMENT
ADDRESS
1281
1441
1601
1761
SET VALUE
0
1
2
3
16
17
18
19
20
22
PARAMETER
Control output 1, Output assignment
Control output 2, Output assignment
Control output 3, Output assignment
Control output 4, Output assignment
RANGE
See the table below.
PARAMETER
Not assigned
Device error
Alarm OR
Alarm AND
Loop 1, Heating control output
Loop 1, Cooling control output
Loop 1, PV
Loop 1, Internal SP
Loop 1, Local SP
Loop 1, Input error
TYPE
--ON / OFF
ON / OFF
ON / OFF
Continuous value
Continuous value
Continuous value
Continuous value
Continuous value
ON / OFF
DEFAULT
16
32
0
0
OUTPUT SCALING DECIMAL
------------------By input 1 decimal setting
By input 1 decimal setting
By input 1 decimal setting
----
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TC10NM
n CONTROL CYCLE
Specify duty cycle for duty ratio output. Disregarded with DC signal output setting.
ADDRESS
1282
1442
1602
1762
PARAMETER
Control output 1, Control cycle
Control output 2, Control cycle
Control output 3, Control cycle
Control output 4, Control cycle
RANGE
1.0 to 99.9 seconds
DEFAULT
2.0
n MINIMUM ON / OFF WIDTH
Specify the minimum pulse width for ON and OFF with duty ratio output.
For example, with 1% setting, the output below 1% is output as 0%, while the output above 99% is output as 100%.
ADDRESS
1283
1443
1603
1763
PARAMETER
Control output 1, Minimum ON / OFF width
Control output 2, Minimum ON / OFF width
Control output 3, Minimum ON / OFF width
Control output 4, Minimum ON / OFF width
RANGE
0.0 to 50.0 %
DEFAULT
0.0
n OUTPUT SCALING 0% / OUTPUT SCALING 100% / OUTPUT 0% / OUTPUT 100%
Specify the internal temperature output range from OUTPUT SCALING 0% to OUTPUT SCALING 100%, and the converted
output range from OUTPUT 0% to OUTPUT 100%.
ADDRESS
1284
1285
1444
1445
1604
1605
1764
1765
1286
1287
1446
1447
1606
1607
1766
1767
PARAMETER
Control output 1, Output scaling 0%
Control output 1, Output scaling 100%
Control output 2, Output scaling 0%
Control output 2, Output scaling 100%
Control output 3, Output scaling 0%
Control output 3, Output scaling 100%
Control output 4, Output scaling 0%
Control output 4, Output scaling 100%
Control output 1, Output 0%
Control output 1, Output 100%
Control output 2, Output 0%
Control output 2, Output 100%
Control output 3, Output 0%
Control output 3, Output 100%
Control output 4, Output 0%
Control output 4, Output 100%
RANGE
-3200.0 to + 3200.0
(temperature unit)*4
0.0 to 100.0
0.0 to 100.0
DEFAULT
0.0
100.0
0.0
100.0
0.0
100.0
0.0
100.0
*5
0.0
100.0
0.0
100.0
*4. Output scaling 0 to 100 % is valid only when control output is assigned to PV, Internal SP or Local SP. Disregarded if it
is assigned to others.
*5. Default value and engineering unit depends upon the model number suffix code as in the table below.
MODEL
TC10NM-P-x
TC10NM-A-x
TC10NM-V-x
OUTPUT 0%
0.0
4.0
0.0
OUTPUT 100%
100.0
20.0
10.0
UNIT
%
mA
V
n OUTPUT INVERSION
Voltage pulse signal level and open collector output ON / OFF logic can be inverted.
ADDRESS
1288
1448
1608
1768
PARAMETER
Control output 1, Output inversion
Control output 2, Output inversion
Control output 3, Output inversion
Control output 4, Output inversion
RANGE
0 : Normal
1 : Inverted
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DEFAULT
0
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TC10NM
LOOP
The Controller has one control loop (loop 1) which can be assigned with PID and ON / OFF control operations.
Loop receives the universal input to feedback and perform temperature control.
n OPERATION AT STARTUP
Specify whether the Controller automatically starts operating (RUN) or not (STOP). With STOP setting, it outputs the predefined ‘MV output at STOP status.’
ADDRESS
193
PARAMETER
Loop 1, Operation at startup
RANGE
0 : STOP
1 : RUN
DEFAULT
0
n CONTROL MODE AT STARTUP
Specify the control mode at the startup. In MANUAL mode, the control output can be manually manipulated. In AUTO mode,
the Controller starts automatic control operations.
ADDRESS
194
PARAMETER
Loop 1, Control mode at startup
RANGE
0 : MANUAL
1 : AUTO
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DEFAULT
0
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TC10NM
n CONTROL TYPE
Specify the control strategy for each loop.
ADDRESS
195
PARAMETER
Loop 1, Control type
RANGE
0 : Standard PID control
1 : Heating-cooling PID control
2 : Heating-cooling ON / OFF control
DEFAULT
0
• Standard PID Control
Typical PID control operation is performed by PID1 P (proportional band), PID1 I (integral time) and PID1 D (derivative time)
set in the selected bank. The Controller automatically adjusts the heating control output (MV) to match the setpoint value
(SP) with the universal input value (PV).
• Heating-Cooling PID Control
PID control is applied to both heating and cooling using PID parameters in PID1 (for heating) and PID2 (for cooling) parameters.
PARAMETER
P
(proportional band)
DESCRIPTIONS
P output is proportional to the deviation between the input (PV) and the
setpoint (SP).
MV
proportional
band
SMALLER SET VALUE
• Takes shorter time to reach
the target temperature
• Overshooting or cycling
may occur more frequently.
LARGER SET VALUE
• Takes longer time to
reach the target temperature
• Overshooting is unlikely
to occur.
• Takes longer time to
reach the target temperature
• Overshooting, undershooting, or cycling may
be diminished.
• Overshooting or undershooting may be diminished.
• Small hunting may occur.
100%
SP
50%
PV
0%
I
(integral time)
I output is proportional to the integrated deviation between PV and SP.
It is used to automatically adjust offset
by P output.
• Takes shorter time to reach
the target temperature
• Overshooting, undershooting, or cycling may occur to
a greater degree.
D
(derivative time)
D output is proportional to the derivative of deviation between PV and SP.
It is used as a corrective action against
changes in PV and SP.
• Overshooting or undershooting may occur to a
greater degree.
• Heating-Cooling ON / OFF Control
The control output is turned on until the universal input (PV) matches the setpoint value (SP) and then turned off. Heating
control is applied when the SP is greater than the PV, while cooling control is applied when the SP is smaller than the PV.
The output is turned on again if the PV is deviated from the SP again, but the sensitivity to react to a deviation can be set for
heating and cooling respectively.
heating control output
ON
SP
cooling control output
PV
OFF
heating sensitivity
cooling sensitivity
n DIRECT / REVERSE ACTION
Direct or reverse action can be specified for the standard PID control.
Choose ‘reverse’ action when the MV should be decreased with an increasing PV (typical heating control), and ‘direct’ action
when the MV should be increased (typical cooling control).
Disregarded if the selected control strategy is other than the standard PID control.
ADDRESS
196
PARAMETER
Loop 1, Direct / reverse action
RANGE
0 : Reverse
1 : Direct
DEFAULT
0
n SP LOW LIMIT / SP HIGH LIMIT
Specify the lower and the upper limits for the SP.
For example, if the SP range is set to 0.0 − 100.0, setting 100.0 is used for setting 200.0 automatically.
ADDRESS
199
200
PARAMETER
Loop 1, SP low limit
Loop 1, SP high limit
RANGE
-3200.0 to +3200.0
(decimal by input 1 decimal setting)
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DEFAULT
-3200.0
3200.0
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P. 18 / 40
TC10NM
n MV AT STARTUP / MV AT STOP / MV AT ERROR
Specific MV values can be set for respective loop status.
ADDRESS
201
202
203
PARAMETER
Loop 1, MV at startup
Loop 1, MV at STOP
Loop 1, MV at error
RANGE
-105.00 to +105.00 %
DEFAULT
0.00
With standard PID control, -5.00 is used for any value below -5.00.
With heating-cooling PID control, negative value is applied for cooling control.
With ON / OFF control, cooling control is turned on at -100.00, both cooling and heating is off at 0.00, and heating is on at
100.00.
With MANUAL control mode, the MV at startup is applied at the startup, however, once the Controller transits from AUTO
to MANUAL, the MV value at the moment of the transition is carried on.
The Controller’s action is determined in the following priority order: MANUAL > STOP > Error.
n MV LOW LIMIT / MV HIGH LIMIT
Specify the lower and the upper limits for the MV.
For example, if the MV range is set to 0.00 − 50.00, setting 50.00 is used for setting 70.00 automatically.
ADDRESS
204
205
PARAMETER
Loop 1, MV low limit
Loop 1, MV high limit
RANGE
-100.00 to +100.00 %
DEFAULT
-100.00
100.00
n ERROR ACTION
Specify the Controller’s action in case of an input error (burnout).
ADDRESS
206
PARAMETER
Loop 1, Error action
RANGE
0 : Operation continued
1 : ‘MV at error’ output
2 : STOP
DEFAULT
1
With ‘Operation continued’ setting, the Controller continues operating.
With ‘MV at error’ output setting, it outputs the specified output value until the error is cancelled.
With STOP setting, the Controller stops operating. It does not restart automatically even when the error is cancelled.
n CT ALARM ACTION
Specify the Controller’s action in case of an alarm by CT input (heater wire break, SSR shortcircuit failure or overload).
ADDRESS
207
PARAMETER
Loop 1, CT alarm action
RANGE
0 : Operation continued
1 : ‘MV at error’ output
2 : STOP
DEFAULT
1
With ‘Operation continued’ setting, the Controller continues operating.
With ‘MV at error’ output setting, it outputs the specified output value until the error is cancelled.
With STOP setting, the Controller stops operating. It does not restart automatically even when the error is cancelled.
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TC10NM
n PV ALARM 1, PV ALARM 2, PV ALARM 3
The Controller monitors PV signal to trigger alarms in predefined conditions.
Three alarm conditions (PV ALARM 1 through 3) can be specified.
High / low setpoint values can be specified by banks, together with other settings such as SP.
• ALARM TYPE
Specify conditions to be monitored for alarm trip.
ADDRESS
321
329
337
PARAMETER
Loop 1, Alarm 1 type
Loop 1, Alarm 2 type
Loop 1, Alarm 3 type
SET VALUE
0
Alarm OFF
1
Deviation Hi/Lo limit
RANGE
See the table below.
DEFAULT
0
ALARM TYPE
Lo
Hi
alarm range
SP
2
Deviation Hi limit
3
Deviation Lo limit
4
Deviation range
5
Deviation Hi/Lo limit
with standby sequence
6
Deviation Hi limit
with standby sequence
Hi
SP
Lo
SP
Lo
Hi
SP
Lo
Hi
SP
Hi
SP
7
Deviation Lo limit
with standby sequence
8
Absolute value Hi/Lo limit
9
Absolute value Hi limit
10
Absolute value Lo limit
Lo
SP
Hi
Lo
0
Hi
0
Lo
0
11
Absolute value Hi/Lo limit
with standby sequence
Lo
Hi
0
12
Absolute value Hi limit
with standby sequence
13
Absolute value Lo limit
with standby sequence
Hi
0
Lo
0
Standby sequence is a function to prevent unwanted alarm triggered at the startup or at an SP change. If the PV is in alarm
range at the startup or at an SP change, no alarm is triggered until the PV is out of the range. Once it is out and then in the
range again, normal alarm function starts functioning.
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TC10NM
• ALARM HIGH SETPOINT / ALARM LOW SETPOINT
Multiple setpoint values can be specified by using banks. Refer to ‘BANK’ section for assigned addresses.
For the deviation alarm, specify offset values from the SP (positive value for a temperature value greater than the SP, negative value for one smaller).
For the absolute value alarm, specify absolute temperature values.
• ALARM HYSTERESIS
Hysteresis, a deadband between ON point and OFF point, is used to prevent frequent ON / OFF operations (generally called
‘chattering’) of an alarm output device when the PV fluctuates around the setpoint.
alarm hysteresis
alarm hysteresis
alarm ON
alarm OFF
ADDRESS
322
330
338
alarm Lo limit
alarm Hi limit
PARAMETER
Loop 1, Alarm 1 hysteresis
Loop 1, Alarm 2 hysteresis
Loop 1, Alarm 3 hysteresis
RANGE
0.0 to 999.9
(decimal by input 1 decimal setting)
DEFAULT
0.0
• ALARM LATCHING
Once an alarm is tripped, it is held even when the alarm condition is cancelled.
Latched alarm is reset by turning the device’s power supply off or by Modbus command.
ADDRESS
323
331
339
PARAMETER
Loop 1, Alarm 1 latching
Loop 1, Alarm 2 latching
Loop 1, Alarm 3 latching
RANGE
0 : Disable
1 : Enable
DEFAULT
0
• ALARM ON DELAY / ALARM OFF DELAY
Alarm ON delay time is applied to the time during which an alarm condition should remain true, before the alarm trips.
Alarm OFF delay time is applied to the time during which an alarm conditions should remain false, before the tripped alarm
is reset.
Setting 0 means no delay in the alarm operations.
ADDRESS
324
332
340
325
333
341
PARAMETER
Loop 1, Alarm 1 ON delay
Loop 1, Alarm 2 ON delay
Loop 1, Alarm 3 ON delay
Loop 1, Alarm 1 OFF delay
Loop 1, Alarm 2 OFF delay
Loop 1, Alarm 3 OFF delay
RANGE
0 to 999 seconds
DEFAULT
0
• ALARM SP TYPE
When the SP is changed, actual target temperature gradually changes in a ramp setting until it reaches the final setpoint.
Choose either the setpoint in the ramp transition or the final setpoint should be used for reference of alarm judgment.
ADDRESS
326
334
342
PARAMETER
Loop 1, Alarm 1 SP type
Loop 1, Alarm 2 SP type
Loop 1, Alarm 3 SP type
RANGE
0 : Ramp SP
1 : SP
DEFAULT
0
• ALARM OUTPUT
Specify the output device for alarms.
When one of the control outputs is specified, be sure also to specify ‘Alarm OR’ or ‘Alarm AND’ with its output assignment.
With ‘Alarm OR’ setting, the output is provided if one or more alarms assigned to it are in true conditions. With ‘Alarm AND’
setting it is provided only if all alarms assigned to it are in true conditions.
ADDRESS
327
335
343
PARAMETER
Loop 1, Alarm 1 output
Loop 1, Alarm 2 output
Loop 1, Alarm 3 output
RANGE
0 : Network only
1 : Control output 1
2 : Control output 2
3 : Control output 3
4 : Control output 4
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DEFAULT
0
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TC10NM
BANK
The Controller has four sets of banks. Temperature setpoint and PID and other parameters can be stored and switched easily
during operation by an external event input (Di) or via Modbus communication.
Bank 1 is used when there is no bank switching.
n SP (SETPOINT VALUE)
Specify local SP.
CAUTION
Local SP bank is saved in the nonvolatile memory of the device.
If the SP bank is changed frequently during operation, the memory may reach its limit of writing, approx. 106 cycles
in a short time.
Use the ‘Setpoint Value Setting’ for frequent changes.
[Bank 1]
ADDRESS
1153
PARAMETER
Loop 1, SP (setpoint value)
RANGE
-3200.0 to +3200.0
(decimal by input 1/2 decimal setting)
DEFAULT
25.0
PARAMETER
Loop 1, SP (setpoint value)
RANGE
-3200.0 to +3200.0
(decimal by input 1/2 decimal setting)
DEFAULT
25.0
PARAMETER
Loop 1, SP (setpoint value)
RANGE
-3200.0 to +3200.0
(decimal by input 1/2 decimal setting)
DEFAULT
25.0
PARAMETER
Loop 1, SP (setpoint value)
RANGE
-3200.0 to +3200.0
(decimal by input 1/2 decimal setting)
DEFAULT
25.0
[Bank 2]
ADDRESS
1313
[Bank 3]
ADDRESS
1473
[Bank 4]
ADDRESS
1633
n SP RAMP FALL RATE / SP RAMP RISE RATE
SP can be changed gradually in specified ramp rates when a new SP value is applied. SP ramp fall rate is applied with a
decreasing SP, while SP rise rate is with an increasing SP. Unit is “setting temperature / sec.”
The SP is instantly switched to a new value when ‘0.0’ is set.
The setting is valid for all SP value changes except at STOP status and in error status.
[Bank 1]
ADDRESS
1154
1155
PARAMETER
Loop 1, SP ramp fall rate
Loop 1, SP ramp rise rate
RANGE
0.0 to 3200.0 per second
(decimal by input 1 decimal setting)
DEFAULT
0.0
PARAMETER
Loop 1, SP ramp fall rate
Loop 1, SP ramp rise rate
RANGE
0.0 to 3200.0 per second
(decimal by input 1 decimal setting)
DEFAULT
0.0
PARAMETER
Loop 1, SP ramp fall rate
Loop 1, SP ramp rise rate
RANGE
0.0 to 3200.0 per second
(decimal by input 1 decimal setting)
DEFAULT
0.0
PARAMETER
Loop 1, SP ramp fall rate
Loop 1, SP ramp rise rate
RANGE
0.0 to 3200.0 per second
(decimal by input 1 decimal setting)
DEFAULT
0.0
[Bank 2]
ADDRESS
1314
1315
[Bank 3]
ADDRESS
1474
1475
[Bank 4]
ADDRESS
1634
1635
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TC10NM
n P (proportional band) / I (integral time) / D (derivative time)
PID parameters are used in standard and heating-cooling PID control.
Only PID1 is used for the standard PID. With the heating-cooling PID, PID1 is used for heating, while PID2 is for cooling.
[Bank 1]
ADDRESS
1156
1157
1158
1159
1160
1161
PARAMETER
Loop 1, PID1 P (proportional band)
Loop 1, PID1 I (integral time)
Loop 1, PID1 D (derivative time)
Loop 1, PID2 P (proportional band)
Loop 1, PID2 I (integral time)
Loop 1, PID2 D (derivative time)
RANGE
0.1 to 3200.0 (decimal by input 1 decimal setting)
0 to 3999 seconds
0.0 to 999.9 seconds
0.1 to 3200.0 (decimal by input 1 decimal setting)
0 to 3999 seconds
0.0 to 999.9 seconds
DEFAULT
8.0
200
40.0
8.0
200
40.0
PARAMETER
Loop 1, PID1 P (proportional band)
Loop 1, PID1 I (integral time)
Loop 1, PID1 D (derivative time)
Loop 1, PID2 P (proportional band)
Loop 1, PID2 I (integral time)
Loop 1, PID2 D (derivative time)
RANGE
0.1 to 3200.0 (decimal by input 1 decimal setting)
0 to 3999 seconds
0.0 to 999.9 seconds
0.1 to 3200.0 (decimal by input 1 decimal setting)
0 to 3999 seconds
0.0 to 999.9 seconds
DEFAULT
8.0
200
40.0
8.0
200
40.0
PARAMETER
Loop 1, PID1 P (proportional band)
Loop 1, PID1 I (integral time)
Loop 1, PID1 D (derivative time)
Loop 1, PID2 P (proportional band)
Loop 1, PID2 I (integral time)
Loop 1, PID2 D (derivative time)
RANGE
0.1 to 3200.0 (decimal by input 1 decimal setting)
0 to 3999 seconds
0.0 to 999.9 seconds
0.1 to 3200.0 (decimal by input 1 decimal setting)
0 to 3999 seconds
0.0 to 999.9 seconds
DEFAULT
8.0
200
40.0
8.0
200
40.0
PARAMETER
Loop 1, PID1 P (proportional band)
Loop 1, PID1 I (integral time)
Loop 1, PID1 D (derivative time)
Loop 1, PID2 P (proportional band)
Loop 1, PID2 I (integral time)
Loop 1, PID2 D (derivative time)
RANGE
0.1 to 3200.0 (decimal by input 1 decimal setting)
0 to 3999 seconds
0.0 to 999.9 seconds
0.1 to 3200.0 (decimal by input 1 decimal setting)
0 to 3999 seconds
0.0 to 999.9 seconds
DEFAULT
8.0
200
40.0
8.0
200
40.0
[Bank 2]
ADDRESS
1316
1317
1318
1319
1320
1321
[Bank 3]
ADDRESS
1476
1477
1478
1479
1480
1481
[Bank 4]
ADDRESS
1636
1637
1638
1639
1640
1641
n HEATING SENSITIVITY / COOLING SENSITIVITY
Sensitivity, a deadband between ON point and OFF point for heating / cooling control output, is used to prevent frequent ON/
OFF operations (generally called ‘chattering’) of a control output device when the PV fluctuates around the setpoint.
[Bank 1]
ADDRESS
1168
1169
PARAMETER
Loop 1, Heating sensitivity
Loop 1, Cooling sensitivity
RANGE
0.0 to 999.9
(decimal by input 1 decimal setting)
DEFAULT
0.0
PARAMETER
Loop 1, Heating sensitivity
Loop 1, Cooling sensitivity
RANGE
0.0 to 999.9
(decimal by input 1 decimal setting)
DEFAULT
0.0
PARAMETER
Loop 1, Heating sensitivity
Loop 1, Cooling sensitivity
RANGE
0.0 to 999.9
(decimal by input 1 decimal setting)
DEFAULT
0.0
PARAMETER
Loop 1, Heating sensitivity
Loop 1, Cooling sensitivity
RANGE
0.0 to 999.9
(decimal by input 1 decimal setting)
DEFAULT
0.0
[Bank 2]
ADDRESS
1328
1329
[Bank 3]
ADDRESS
1488
1489
[Bank 4]
ADDRESS
1648
1649
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TC10NM
n DEADBAND
Deadband is a zone in which neither heating nor cooling control is performed.
Negative value setting means both heating and cooling control is performed in the zone.
The figure below shows an example of ON / OFF control with the deadband set to 10°C.
10°C
ON
OFF
SP
heating sensitivity
cooling sensitivity
At PID control, deadband is enabled for P control. At P control (I = 0 and D = 0.0), with continuous value control, a zone in
which both heating MV and cooling MV equal 0 is formed at ±5°C of the SP when the deadband is set to 10°C. With the setting to -10°C, the zone is with both heating MV and cooling MV.
• Deadband set to 10°C (at I=0, D=0.0)
• Deadband set to -10°C (at I=0, D=0.0)
MV
MV
10°C
100%
50%
heating
MV
0%
10°C
100%
cooling
MV
SP
50%
PV
0%
heating
MV
cooling
MV
SP
PV
Note: In order to be intelligible, the graphs show MV at P control. However, in case that I and / or D are set, the graphs may
be different from the avobe, since switching of heating MV / cooling MV does not match SP.
[Bank 1]
ADDRESS
1170
PARAMETER
RANGE
-999.9 to +999.9
(decimal by input 1/2 decimal setting)
DEFAULT
0.0
PARAMETER
RANGE
-999.9 to +999.9
(decimal by input 1/2 decimal setting)
DEFAULT
0.0
PARAMETER
RANGE
-999.9 to +999.9
(decimal by input 1/2 decimal setting)
DEFAULT
0.0
PARAMETER
RANGE
-999.9 to +999.9
(decimal by input 1/2 decimal setting)
DEFAULT
0.0
Loop 1, Deadband
[Bank 2]
ADDRESS
1330
Loop 1, Deadband
[Bank 3]
ADDRESS
1490
Loop 1, Deadband
[Bank 4]
ADDRESS
1650
Loop 1, Deadband
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TC10NM
n MANUAL RESET
Manual reset is used to eliminate errors by offset generated by P control (I = 0, D = 0.0) or PD control (I = 0).
MV (control output) changes from 100% to 0% proportionally to the temperature range set with P value. The MV is converted
so that the MV set with the manual reset value is equal to the SP.
The figure below shows an example of MV value transition against PV when SP is set to 50.0°C, the manual reset value to
40.00%, with P (proportional-only) control (P = 10.0, I = 0, D = 0.0).
MV
100%
SP
40%
0%
44°C
SP=50°C 54°C
PV
[Bank 1]
ADDRESS
1171
PARAMETER
Loop 1, Manual reset
RANGE
0.00 to 100.00 %
DEFAULT
50.00
PARAMETER
Loop 1, Manual reset
RANGE
0.00 to 100.00 %
DEFAULT
50.00
PARAMETER
Loop 1, Manual reset
RANGE
0.00 to 100.00 %
DEFAULT
50.00
PARAMETER
Loop 1, Manual reset
RANGE
0.00 to 100.00 %
DEFAULT
50.00
[Bank 2]
ADDRESS
1331
[Bank 3]
ADDRESS
1491
[Bank 4]
ADDRESS
1651
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TC10NM
n ALARM LOW SETPOINT / HIGH SETPOINT FOR PV ALARM 1...3
High and low alarm setpoint values for PV Alarm 1 through 3 are set in the banks.
Alarm setpoints can be easily switched between banks depending upon different conditions such as setpoint changes.
[Bank 1]
ADDRESS
1162
1163
1164
1165
1166
1167
PARAMETER
Loop 1, Alarm 1 low setpoint
Loop 1, Alarm 1 high setpoint
Loop 1, Alarm 2 low setpoint
Loop 1, Alarm 2 high setpoint
Loop 1, Alarm 3 low setpoint
Loop 1, Alarm 3 high setpoint
RANGE
-3200.0 to +3200.0
(decimal by input 1 decimal setting)
DEFAULT
0.0
PARAMETER
Loop 1, Alarm 1 low setpoint
Loop 1, Alarm 1 high setpoint
Loop 1, Alarm 2 low setpoint
Loop 1, Alarm 2 high setpoint
Loop 1, Alarm 3 low setpoint
Loop 1, Alarm 3 high setpoint
RANGE
-3200.0 to +3200.0
(decimal by input 1 decimal setting)
DEFAULT
0.0
PARAMETER
Loop 1, Alarm 1 low setpoint
Loop 1, Alarm 1 high setpoint
Loop 1, Alarm 2 low setpoint
Loop 1, Alarm 2 high setpoint
Loop 1, Alarm 3 low setpoint
Loop 1, Alarm 3 high setpoint
RANGE
-3200.0 to +3200.0
(decimal by input 1 decimal setting)
DEFAULT
0.0
PARAMETER
Loop 1, Alarm 1 low setpoint
Loop 1, Alarm 1 high setpoint
Loop 1, Alarm 2 low setpoint
Loop 1, Alarm 2 high setpoint
Loop 1, Alarm 3 low setpoint
Loop 1, Alarm 3 high setpoint
RANGE
-3200.0 to +3200.0
(decimal by input 1 decimal setting)
DEFAULT
0.0
[Bank 2]
ADDRESS
1322
1323
1324
1325
1326
1327
[Bank 3]
ADDRESS
1482
1483
1484
1485
1486
1487
[Bank 4]
ADDRESS
1642
1643
1644
1645
1646
1647
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TC10NM
EVENT INPUT
The Controller has two discrete inputs for event control (event input 1, event input 2) which can be assigned for various purposes such as mode switching, bank switching.
In the following explanations, an open contact is described OFF, while a closed contact is ON.
n EVENT INPUT 1 FUNCTION ASSIGNMENT / EVENT INPUT 2 FUNCTION ASSIGNMENT
ADDRESS
1249
1409
SET VALUE
0
17
18
19
20
21
22
PARAMETER
Event input 1 function assignment
Event input 2 function assignment
RANGE
See the table below.
DEFAULT
0
FUNCTION
Disable
Loop 1, Bank bit 0
Loop 1, Bank bit 1
Loop 1, Control operation: OFF = STOP / ON = RUN
Loop 1, Control operation: OFF = RUN / ON = STOP
Loop 1, Control mode: OFF = MANUAL / ON = AUTO
Loop 1, Control mode: OFF = AUTO / ON = MANUAL
Combination of bank bit 0 and 1 determines which bank should be used.
BANK BIT 0
OFF
ON
OFF
ON
BANK BIT 1
OFF
OFF
ON
ON
SELECTED BANK
Bank 1
Bank 2
Bank 3
Bank 4
If only one of the bank bits is assigned for event, the other (non-assigned) bit status is assumed to be OFF when selecting a
bank.
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TC10NM
CT INPUT
The Controller has one CT input (CT input 1) which is used to monitor the control outputs with clamp-on current sensors, for
alarm purposes.
CAUTION
The Controller can monitor the control outputs only in case of 12V DC pulse or open collector. These outputs must be
set for PID or heating-cooling PID control assigned with heating output or cooling output.
n CT SENSOR TYPE
ADDRESS
1217
SET VALUE
0
1
2
3
4
5
PARAMETER
CT input 1, CT sensor type
SENSOR MODEL
CLSE-R5
CLSE-05
CLSE-10
CLSE-20
CLSE-40
CLSE-60
RANGE
See the table below.
DEFAULT
0
RANGE
See the table below.
DEFAULT
0
INPUT RANGE
0.0 − 5.0 A
0.0 − 50.0 A
0.0 − 100.0 A
0.0 − 200.0 A
0.0 − 400.0 A
0.0 − 600.0 A
n OUTPUT ASSIGNMENT
ADDRESS
1218
PARAMETER
CT input 1, Output assignment
SET VALUE
0
1
2
3
OUTPUT
Control output 1
Control output 2
Control output 3
Control output 4
n HEATER WIRE BREAK ALARM / SSR SHORTCIRCUIT FAILURE ALARM / OVERLOAD ALARM
The following three types of alarm are available using the CT inputs.
These alarms could be used independently or in combination.
For example, with a heater driven by an SSR, the heater wire break, the SSR shortcircuit failure and the overload can be all
detected and alerted.
Heater wire break alarm
SSR shortcircuit failure
alarm
Overload alarm
CAUTION
Current flows through the load normally when
control output ON
the control output is on. Current stops when the
control output OFF
heater’s wire breaks.
heater current
The Controller measures the current with a clampon current sensor and triggers an alarm when it is
measuring current
below the setpoint.
Current stop normally when the control output is off. Current flows through the load when
the SSR fails in the shortcircuit mode.
The Controller measures the current with a clamp-on current sensor and triggers an alarm
when it is above the setpoint.
Regardless of the control status, the Controller continuously measures the current with a
clamp-on current sensor and triggers an alarm when it is above the setpoint.
Control output must be turned on for at the minimum of 110 milliseconds to detect a heater wire break; must be
turned off for at the minimum of 200 milliseconds to detect an SSR shortcircuit failure. If there is no ON and / or
OFF status longer than the minimum duration for one control cycle, the Controller cannot measure current. Current
display shows -0.1A (invalid measurement) and all related alarms are reset except for those latched.
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TC10NM
Choose alarm functions.
ADDRESS
257
263
269
PARAMETER
CT input 1, Heater wire break alarm
CT input 1, SSR shortcircuit failure alarm
CT input 1, Overload alarm
RANGE
DEFAULT
0
RANGE
0.0 to 600.0 A
DEFAULT
0.0
0 : Disable
1 : Enable
• ALARM SETPOINT
Specify a threshold for each alarm.
ADDRESS
258
264
270
PARAMETER
CT input 1, Heater wire break alarm setpoint
CT input 1, SSR shortcircuit failure alarm setpoint
CT input 1, Overload alarm setpoint
• ALARM HYSTERESIS (DEADBAND)
Hysteresis, a deadband between ON point and OFF point, is used to prevent frequent ON / OFF operations (generally called
‘chattering’) of an alarm output device when the current fluctuates around the setpoint.
ADDRESS
259
265
271
PARAMETER
CT input 1, Heater wire break alarm hysteresis
CT input 1, SSR shortcircuit failure alarm hysteresis
CT input 1, Overload alarm hysteresis
RANGE
0.0 to 99.9 A
DEFAULT
0.0
• ALARM LATCHING
Once an alarm is tripped, it is held when the alarm condition is cancelled.
Latched alarm is reset by turning the device’s power supply off or by a Modbus command.
ADDRESS
260
266
272
PARAMETER
CT input 1, Heater wire break alarm latching
CT input 1, SSR shortcircuit failure alarm latching
CT input 1, Overload alarm latching
RANGE
0 : Disable
1 : Enable
DEFAULT
0
• ALARM OUTPUT
Specify the output device for alarms.
When one of the control outputs is specified, be sure also to specify ‘Alarm OR’ or ‘Alarm AND’ with its output assignment.
With ‘Alarm OR’ setting, the output is provided if one or more alarms assigned to it are in true conditions. With ‘Alarm AND’
setting it is provided only if all alarms assigned to it are in true conditions.
ADDRESS
261
267
273
PARAMETER
CT input 1, Heater wire break alarm output
CT input 1, SSR shortcircuit failure alarm output
CT input 1, Overload alarm output
RANGE
0 : Network only
1 : Control output 1
2 : Control output 2
3 : Control output 3
4 : Control output 4
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DEFAULT
0
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TC10NM
AUTO-TUNING
Limit cycle method auto-tuning is available for standard PID and heating-cooling PID control to automatically determine appropriate PID parameters by providing MV signal in steps as shown below and observing PV signal behavior.
Auto-tuning conditions should be set in advance. The Controller starts auto-tuning by a command.
PV
SP
MV
CAUTION
In order to stop a running auto-tuning process, turn the power supply off or STOP the loop operation. Once STOP is
applied, switch to RUN again to resume normal control, cancelling the auto-tuning.
n AUTO-TUNING CONTROL TYPE
ADDRESS
208
SET VALUE
0
1
2
3
PARAMETER
Loop 1, Auto-tuning control type
RANGE
See the table below.
DEFAULT
0
AUTO-TUNING CONTROL TYPE
Follow-up PID control
Follow-up PI control
PID control with fixed setpoint
PI control with fixed setpoint
Follow-up control is suitable for a loop in which the setpoint changes according to the process status.
n AUTO-TUNING HYSTERESIS (DEADBAND)
Specify hysteresis values to be applied when monitoring PV variation in the auto-tuning process.
If the PV fluctuates, set a larger value. Too large a value may result in tuning to inappropriate PID parameters.
ADDRESS
209
PARAMETER
Loop 1, Auto-tuning hysteresis
RANGE
0.0 to 999.9
(decimal by input 1/2 decimal setting)
DEFAULT
0.8
n AUTO-TUNING MV HIGH LIMIT / AUTO-TUNING MV LOW LIMIT
Specify the maximum range of MV applied in steps for auto-tuning.
With standard PID control, 0.00 is used for a negative range.
With heating-cooling PID control, a negative value is used for the cooling control.
ADDRESS
210
211
PARAMETER
Loop 1, Auto-tuning MV high limit
Loop 1, Auto-tuning MV low limit
RANGE
-100.00 to +100.00 %
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DEFAULT
100.00
-100.00
EM-9582-B
P. 30 / 40
TC10NM
DISPLAY SETTING
Display setting of the unit can be configured.
n BRIGHTNESS
The brightness of the display can be adjusted with 0 to 3, 4 levels. “3” is brightest.
ADDRESS
PARAMETER
RANGE
DEFAULT
769
Brightness
0–3
3
MODBUS COMMUNICATION CONFIGURATION
Modbus communication configuration can be set. Be sure that the communication condition set here is updated immediately.
n NODE ADDRESS
ADDRESS
PARAMETER
RANGE
DEFAULT
2049
Node address
1 – 247
1
ADDRESS
PARAMETER
RANGE
DEFAULT
2050
Baud rate
0: 57600 bps
1
n BAUD RATE
1: 38400 bps
2: 19200 bps
3: 9600 bps
4: 4800 bps
n PARITY
ADDRESS
PARAMETER
RANGE
DEFAULT
2051
Parity
0: None
1
1: Odd
2: Even
n STOP BIT
ADDRESS
PARAMETER
RANGE
DEFAULT
2052
Stop bit
0: 1 bit
0
1: 2 bits
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TC10NM
DISPLAY
Loop status indicators
PV Display
SP/MV Display
SP/MV
Esc
n PV DISPLAY
In monitor mode, PV of displayed loop is displayed. In setting mode, abbreviation for setting item is displayed.
n SP / MV DISPLAY
In monitor mode, SV or MV of displayed loop is displayed. In setting mode, setting value of setting item is displayed.
n LOOP STATUS INDICATOR
ID
FUNCTION
Run
Green LED turns on while displayed loop is in operation. Off when
it is stopped.
REMARK
Man
Green LED turns on when MV of displayed loop is manual mode. Off
when it is auto.
Local
Unused, off.
AT
Green LED turns on during auto-tuning of displayed loop.
Out1
ON / OFF status for heating control output of loop1. Green LED In the case one of control output 1 to
turns on when duty output or ON / OFF output is on. Green LED 4 is assigned to heating control outturns on when analog output is other than 0 %.
put.
Out2
ON / OFF status for cooling control output of loop1. Green LED In the case one of control output 1 to
turns on when duty output or ON / OFF output is on. Green LED 4 is assigned to cooling control outturns on when analog output is other than 0 %.
put.
SP / MV
Amber LED turns on for whether SP or MV is displayed.
Bank1 – 4
Green LED turns on for displayed loop in use.
Alarm1 – 3
Red LED turns on for the status of alarm 1 to 3.
Alarm4
Red LED turns on while setting is saving to the non-volatile memory.
CHARACTER SET
0 1 2 3 4 5 6 7 8 9 – A B C D E F G H I J K L MN O P Q R S T U VWX Y Z
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TC10NM
BUTTONS
The unit has 5 buttons, each button have 2 functions. The characters printed above the buttons such as “Auto / Manu”, “SP /
MV”, “Enter” are button functions in monitor mode. The characters printed on the buttons such as “Esc”, “←”, “↓”, “↑”, “ ”
represent button functions in setting mode.
In following explanation of button operations, “Press & hold” means pressing the button for 1 second or more. When setting
numbers, holding down ↑ / ­↓ key increase or decrease the value automatically.
n BASIC BUTTON OPERATIONS IN SETTING MODE
BUTTON
FUNCTION
Enter
Esc
Press
Apply / Go down one level / Save setting value
Press & hold
Return to monitor mode with saving setting value
Press
Cancel / Go back one level up
Press & hold
Return to monitor mode without saving setting value
↑ / ­↓
Choose setting menu, setting item / Change parameter
←
Shift through display digits to change parameter
n RESTARTING THE DEVICES
Pressing & holding the [ESC] button for 5 seconds or more enables the devices restart.
n SWITCHING OPERATING MODE
Operation mode can be switched with buttons.
l SWITCHING AUTO / MANUAL
Auto / Manual of displayed loop are switched with [Auto / Manu] button in monitor mode.
l SWITCHING SP DISPLAY / MV DISPLAY
SP Display / MV Display of displayed loop are switched with [SP / MV] button in monitor mode.
l SWITCHING RUN / STOP
Press & hold the [Enter] button in the monitor mode. Choose “RUN” and press [Enter]. Choose the loop 1, then apply RUN
or STOP. Pressing & holding the [Esc] button or [Enter] button enables to go back to the monitor mode.
Press & hold [Enter]
Press & hold [Esc]
Monitor mode
Press & hold [Enter]
All level
RUN
BANK
CLR.AL
Choose BANK
LOOP1
Loop1: Choose BANK1 – BANK4
AT
CT
BASIC
ADV
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TC10NM
l SWITCHING BANKS
Press & hold the [Enter] button in the monitor mode. Choose “BANK” and press [Enter]. Choose the loop 1, then apply among
BANK1 to 4. Pressing & holding the [Esc] button or [Enter] button enables to go back to the monitor mode.
Press & hold [Enter]
Press & hold [Esc]
Monitor mode
Press & hold [Enter]
LOOP1
RUN
BANK
All level
Loop 1: Choose STOP/RUN
Choose RUN
CLR.AL
AT
CT
BASIC
ADV
l SETTING SP
In the case that SP is displayed in the monitor mode, pressing [Enter] button enables setting of SP. Setting of SP updates
value of operation while setting is changed. Pressing [Enter] button applies the value and the value is saved into the nonvolatile memory. Pressing [Esc] button cancels the value and it returns to the value before the change.
Note: SP of loop 2 cannot be set while loop 1 remote SP is enabled, during which loop 2 control is not available.
l SETTING MV
In the case that MV is displayed in the monitor mode and when the mode is MANUAL, pressing [Enter] button enables setting
of MV. Setting of MV updates value of operation while setting is changed. Pressing [Enter] button apply the value and return
to monitor mode. Pressing [Esc] button cancels the value and it returns to the value before the change.
Note: MV of loop 2 cannot be set while loop 1 remote SP is enabled, during which loop 2 control is not available.
n BASIC SETTING MODE
Control type, Universal input and Control output are available in basic setting mode, which is for quick start of operation.
Since PID parameter setting is not included, perform auto tuning after basic setting or set PID parameters in advanced setting. The settings in basic setting mode are included in advanced setting.
l STARTING BASIC SETTING MODE
Press & hold the [Enter] button in the monitor mode. Choose “BASIC” and press the [Enter]. Pressing the [Enter] at “END”
in the item menu or pressing & holding the [Esc] button in anywhere in the menu enables to return to the monitor mode. In
the case of pressing & holding the [Enter] button, setting items are saved.
l PARAMETER CHANGE IN BASIC SETTING MODE
Selected item is displayed in the PV Display, setting value is displayed in the SP Display. Choose the item to change and press
the [Enter] button. The first digit of setting value starts blinking and can be changed. For detailed description and setting
range, refer to the page for each setting item.
Monitor mode
Press & hold [Enter]
Press & hold [Esc]
Press & hold [Enter]
All level
RUN
C.TYPE
BANK
C.LOGI
CLR.AL
I.TYPE
AT
:
CT
BASIC
ADV
Choose BASIC
:
END
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TC10NM
l SETTING ITEMS IN BASIC SETTING MODE
LOOP
SETTING ITEM
DISPLAY
DESCRIPTION
CONDITION
Loop 1
C.TYPE
Loop 1 Control type
---
C.LOGI
Loop 1 direct / reverse action
Control type = standard PID control
I.TYPE
Universal input 1, input type
---
I.WIRE
Universal input 1, wiring
Input type = RTD, Resistor
I. CJC
Universal input 1, CJC
Input type = T / C
I. 0
Universal input 1, input 0 %
Input type = DC, Potentiometer, Resistor
I. 100
Universal input 1, input 100 %
I.S. 0
Universal input 1, input scale 0 %
I.S. 100
Universal input 1, input scale 100 %
I. DP
Universal input 1, decimal point position
---
01.ASN
Control output 1, output assignment
---
01.CYC
Control output 1, control cycle
Control output 1 is assigned and being pulse
output.
01. 0
Control output 1, output 0 %
Control output 1 is assigned.
01. 100
Control output 1, output 100 %
02.ASN
Control output 2, output assignment
---
02.CYC
Control output 2, control cycle
Control output 2 is assigned and being pulse
output.
02. 0
Control output 2, output 0 %
Control output 2 is assigned.
02. 100
Control output 2, output 100 %
03.ASN
Control output 3, output assignment
---
03.CYC
Control output 3, control cycle
Control output 3 is assigned.
03. 0
Control output 3, output 0 %
03. 100
Control output 3, output 100 %
04.ASN
Control output 4, output assignment
---
04.CYC
Control output 4, control cycle
Control output 4 is assigned.
04. 0
Control output 4, output 0 %
04. 100
Control output 4, output 100 %
END
End of setting
Control output
---
---
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-9582-B
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TC10NM
n ADVANCED SETTING MODE
In advanced setting mode, all setting is available.
l STARTING ADVANCED SETTING MODE
Press & hold the [Enter] button in the monitor mode. Choose “ADV” and press the [Enter]. Pressing & holding the [Esc] or
[Enter] button in anywhere in the menu enables to return to the monitor mode. In the case of pressing & holding the [Enter]
button, setting items are saved.
l PARAMETER CHANGE IN BASIC SETTING MODE
Setting menu or selected item is displayed in the PV Display, setting value is displayed in the SP Display. Choose the item to
change and press the [Enter] button. The first digit of setting value starts blinking and can be changed. For detailed description and setting range, refer to the page for each setting item.
Press & hold [Enter]
Press & hold [Esc]
Monitor mode
Press & hold [Enter]
All level
RUN
BANK
CLR.AL
AT
CT
BASIC
ADV
Choose ADV
U.IN
Universal input setting
C.OUT
Control output setting
LOOP
Loop setting
BANK
BANK setting
Event input setting
EVENT
CT
CT input setting
AT
Auto-tuning setting
System setting
SYS
l UNIVERSAL INPUT SETTING
U.IN
U.IN1
1.TYPE
Universal input 1: Input type
1.WIRE
Universal input 1: Wiring
1. BO
Universal input 1: Burnout
1. CJC
Universal input 1: CJC
1.UNIT
Universal input 1: Temperature unit
1.Z.ADJ
Universal input 1: Input zero fine adjustment
1.S.ADJ
Universal input 1: Input span fine adjustment
1.
Universal input 1: Input 0 %
0
1. 100
Universal input 1: Input 100 %
1.S.
Universal input 1: Input scale 0 %
0
1.S.100
Universal input 1: input scale 100 %
1. FIL
Universal input 1: Filter time constant
1. DP
Universal input 1: number of decimal places
l CONTROL OUTPUT SETTING
C.OUT
C.OUT1
C.OUT2
C.OUT3
C.OUT4
n.ASGN
Control output n: Output assignment
n. CYC
Control output n: Control cycle
n. WID
Control output n: Min. ON/OFF width
n.S.
Control output n: Output scale 0 %
0
Control output n: Output scale 100 %
n.S.100
n.
Control output n: Output 0 %
0
n. 100
Control output n: Output 100 %
n.LOGI
Output inversion
(n: Control output ch)
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-9582-B
P. 36 / 40
TC10NM
l LOOP SETTING
LOOP
LOOP1
S.RUN
Loop 1: Operation at startup
S.MODE
Loop 1: Mode at startup
C.TYPE
Loop 1: Control type
C.LOGI
Loop 1: Direct/ reverse action
SP.L.LM
Loop 1: SP low limit
SP.H.LM
Loop 1: SP high limit
MV.STT
Loop 1: MV at startup
MV.STP
Loop 1: MV at stop
MV.ERR
Loop 1: MV at error
MV.L.LM
Loop 1: MV low limit
MV.H.LM
Loop 1: MV high limit
ERR.OP
Loop 1: Error action
CT.OP
Loop 1: CT alarm action
ALM1
ALM2
ALM3
An.TYP
Loop 1: Alarm n: Type
An.HYS
Loop 1: Alarm n: Hysteresis
An.LAT
Loop 1: Alarm n: Latching
An.ON.D
Loop 1: Alarm n: ON delay
An.OF.D
Loop 1: Alarm n: OFF delay
An. SP
Loop 1: Alarm n: SP type
An.OUT
Loop 1: Alarm n: Output
(n: Alarm number)
l BANK SETTING
BANK
LOOP1
BANK1
BANK2
BANK3
BANK4
SP
Loop 1: Bank y: SP (setpoint value)
SP.RA.D
Loop 1: Bank y: SP ramp fall rate
SP.RA.U
Loop 1: Bank y: SP ramp rise rate
PID1.P
Loop 1: Bank y: PID1 P (proportional band)
PID1.I
Loop 1: Bank y: PID1 I (integral time)
PID1.D
Loop 1: Bank y: PID1 D(derivative time)
PID2.P
Loop 1: Bank y: PID2 P (proportional band)
PID2.I
Loop 1: Bank y: PID2 I (integral time)
PID2.D
Loop 1: Bank y: PID2 D(derivative time)
A1.L.LM
Loop 1: Bank y: Alarm1 low setpoint
A1.H.LM
Loop 1: Bank y: Alarm1 high setpoint
A2.L.LM
Loop 1: Bank y: Alarm2 low setpoint
A2.H.LM
Loop 1: Bank y: Alarm2 high setpoint
A3.L.LM
Loop 1: Bank y: Alarm3 low setpoint
A3.H.LM
Loop 1: Bank y: Alarm3 high setpoint
H.HYS
Loop 1: Bank y: Heating sensitivity
C.HYS
Loop 1: Bank y: Cooling sensitivity
D.BAND
Loop 1: Bank y: Dead band
M.RST
Loop 1: Bank y: Manual reset
(LED on for selected bank)
(y: Selected bank number)
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-9582-B
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TC10NM
l EVENT INPUT SETTING
EVENT
1.ASGN
Event input 1 function assignment
2.ASGN
Event input 2 function assignment
l CT INPUT SETTING
CT
CT1
1.TYPE
CT input 1: CT sensor type
1.ASGN
CT input 1: Output assignment
1.H.BRK
1. SSR
1. OVL
1.H. ON
CT input 1: Heater wire break alarm
1.H.SET
CT input 1: Heater wire break alarm setpoint
1.H.HYS
CT input 1: Heater wire break alarm hysteresis
1.H.LAT
CT input 1: Heater wire break alarm latching
1.H.OUT
CT input 1: Heater wire break alarm output
1.S. ON
CT input 1: SSR shortcircuit failure alarm
1.S.SET
CT input 1: SSR shortcircuit failure alarm setpoint
1.S.HYS
CT input 1: SSR shortcircuit failure alarm hysteresis
1.S.LAT
CT input 1: SSR shortcircuit failure alarm latching
1.S.OUT
CT input 1: SSR shortcircuit failure alarm output
1.O. ON
CT input 1: Overload alarm
1.O.SET
CT input 1: Overload alarm setpoint
1.O.HYS
CT input 1: Overload alarm hysteresis
1.O.LAT
CT input 1: Overload alarm latching
1.O.OUT
CT input 1: Overload alarm output
l AUTO-TUNING SETTING
AT
LOOP1
CTRL
Loop 1: Auto-tuning control type
HYS
Loop 1: Auto-tuning hysteresis
MV.H.LM
Loop 1: Auto-tuning MV high limit
MV.L.LM
Loop 1: Auto-tuning MV low limit
l SYSTEM SETTING
SYS
ADDR
Node address
BAUD
Baud rate
PARIT
Parity
STBIT
Stop bit
BRIGT
Brightness
RESET
Reset setting
VER
Version
Note) For “Reset setting”, reset is available with unit operation. Reset command is not available with Modbus communication.
By setting this value to “1” and applying, all settings return to initial setting. After reset is completed, this value returns to “0”.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-9582-B
P. 38 / 40
TC10NM
n RESET LATCHED ALARM
Press & hold the [Enter] button in the monitor mode. Choose “CLR.AL” and press the [Enter]. Choose the loop 1, by applying
“CLR” enables to reset all latched alarms in the loop.
l HOW TO RESET ALARMS
Monitor mode
Press & hold [Enter]
Press & hold [Esc]
Press & hold [Enter]
All level
LOOP1
RUN
Loop 1: Select KEEP / CLR
BANK
CLR.AL
Choose CLR.AL
AT
CT
BASIC
ADV
n RUNNING AUTO-TUNING
Press & hold the [Enter] button in the monitor mode. Choose “AT” and press the [Enter]. Choose the loop 1, by applying
“AT-GO” auto-tuning is started and the display returns to monitor view. While running auto-tuning, “AT” LED is on, when
auto-tuning is completed LED is off. Appropriate SP should be set before running auto-tuning, since auto-tuning with button
operation tunes based on the SP setting of bank which is used in the loop. The loop should be set to run condition in advance
in order to run auto-tuning. When it is stop condition, auto-tuning cannot be run.
l HOW TO RUN AUTO-TUNING
Monitor mode
Press & hold [Enter]
Press & hold [Esc]
Press & hold [Enter]
All level
LOOP1
RUN
Loop 1: Select AT-NO / AT-GO
BANK
CLR.AL
Choose AT
AT
CT
BASIC
ADV
n MONITOR OF CT INPUT
Press & hold the [Enter] button in the monitor mode. Choose “CT” and press the [Enter]. By choosing CT1, present current
value in [A] is displayed in SP display.
l HOW TO MONITOR CT INPUT
Monitor mode
Press & hold [Enter]
Press & hold [Esc]
Press & hold [Enter]
All level
CT1
RUN
CT1: Current
BANK
CLR.AL
AT
Choose CT
CT
BASIC
ADV
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-9582-B
P. 39 / 40
TC10NM
ERROR MESSAGES
PV DISPLAY
DESCRIPTION
WHAT TO DO
IN1.E
Burnout at universal input 1
Check the connection of universal input 1.
CT1.E
CT input 1 error(Heater wire break
alarm / SSR shortcircuit failure
alarm / Overload alarm)
Check the connection of CT input 1.
AD1.E
Universal input 1 error
Cycle the power. If the unit does not restore, repair is required.
CT.E
CT input error
EEP.E
Non-volatile memory error
BOOT
Firmware update mode
Cycle the power.
LIGHTNING SURGE PROTECTION
M-System offers a series of lightning surge protector for protection against induced lightning surges. Please contact MSystem to choose appropriate models.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-9582-B
P. 40 / 40
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