!"Modbus is a registered trademark of Schneider Electric.
!"Company names and product names used in this manual are the trademarks or registered trademarks of
the respective companies.
All Rights Reserved, Copyright 2002, Chromalox
Precision Heat and Control
In order to achieve maximum performance and ensure proper operation of your new instrument,
carefully read all the instructions in this manual. Please place this manual in a convenient location for
easy reference.
SYMBOLS
WARNING
CAUTION
!
: This mark indicates precautions that must be taken if there is danger of electric
shock, fire, etc., which could result in loss of life or injury.
: This mark indicates that if these precautions and operating procedures are not
taken, damage to the instrument may result.
: This mark indicates that all precautions should be taken for safe usage.
: This mark indicates important information on installation, handling and operating
procedures.
: This mark indicates supplemental information on installation, handling and
operating procedures.
: This mark indicates where additional information may be located.
WARNING
!
An external protection device must be installed if failure of this instrument
!"
could result in damage to the instrument, equipment or injury to personnel.
All wiring must be completed before power is turned on to prevent electric
!"
shock, fire or damage to instrument and equipment.
This instrument must be used in accordance with the specifications to prevent
!"
fire or damage to instrument and equipment.
This instrument is not intended for use in locations subject to flammable or
!"
explosive gases.
Do not touch high-voltage connections such as power supply terminals, etc.
!"
to avoid electric shock.
Chromalox Precision Heat and Control is not responsible if this instrument is
!"
repaired, modified or disassembled by other than factory-approved personnel.
Malfunction can occur and warranty is void under these conditions.
0037-75426
i-1
CAUTION
This is a Class A instrument. In a domestic environment, this instrument may cause radio
!
interference, in which case the user may be required to take adequate measures.
This instrument is protected from electric shock by reinforced insulation. Provide
!
reinforced insulation between the wire for the input signal and the wires for instrument
power supply, source of power and loads.
Be sure to provide an appropriate surge control circuit respectively for the following:
!
- If input/output or signal lines within the building are longer than 30 meters.
- If input/output or signal lines leave the building, regardless the length.
This instrument is designed for installation in an enclosed instrumentation panel. All high-
!
voltage connections such as power supply terminals must be enclosed in the
instrumentation panel to avoid electric shock by operating personnel.
All precautions described in this manual should be taken to avoid damage to the
!
instrument or equipment.
All wiring must be in accordance with local codes and regulations.
!
All wiring must be completed before power is turned on to prevent electric shock,
!
instrument failure, or incorrect action.
The power must be turned off before repairing work for input break and output failure
including replacement of sensor, contactor or SSR, and all wiring must be completed
before power is turned on again.
To prevent instrument damage or failure, protect the power line and the input/output lines
!
from high currents with a protection device such as fuse, circuit breaker, etc.
Prevent metal fragments or lead wire scraps from falling inside instrument case to avoid
!
electric shock, fire or malfunction.
Tighten each terminal screw to the specified torque found in the manual to avoid electric
!
shock, fire or malfunction.
For proper operation of this instrument, provide adequate ventilation for heat dispensation.
!
Do not connect wires to unused terminals as this will interfere with proper operation of the
!
instrument.
Turn off the power supply before cleaning the instrument.
!
Do not use a volatile solvent such as paint thinner to clean the instrument. Deformation or
!
discoloration will occur. Use a soft, dry cloth to remove stains from the instrument.
To avoid damage to instrument display, do not rub with an abrasive material or push front
!
panel with a hard object.
Do not connect modular connectors to telephone line.
!
NOTICE
!
This manual is written for Chromalox
technicians. This manual is also prepared especially for readers who already have a fundamental
knowledge of electricity, control, computer and communication.
!
The figures, diagrams and numeric values used in this manual are only for purpose of illustration.
!
Chromalox
Precision Heat and Control is not responsible for any damage or injury that is caused
as a result of using this instrument, instrument failure or indirect damage.
!
Periodic maintenance is required for safe and proper operation of this instrument. Some
components have a limited service life, or characteristics that change over time.
!
Every effort has been made to ensure accuracy of all information contained herein. Chromalox
Precision Heat and Control makes no warranty expressed or implied, with respect to the accuracy
of the information. The information in this manual is subject to change without prior notice.
!
No portion of this document may be reprinted, modified, copied, transmitted, digitized, stored,
processed or retrieved through any mechanical, electronic, optical or other means without prior
written approval from Chromalox
i-2
Precision Heat and Control service engineers or qualified
Precision Heat and Control.
0037-75426
CONTENTS
Page
1. PROCEDURE FOR INITIALIZATION....................................1
1. 1 Transfer to Engineering Mode .........................................................................2
1.2 Procedure for Parameter Setting.....................................................................4
1.3 End of Engineering Mode ................................................................................9
2. DETAILS OF PARAMETER SETTING ...............................10
2.1 Attention Items in Setting...............................................................................12
2.2 F10 Display function ......................................................................................17
2.9 F51 Control Action .........................................................................................29
2.10 F61 Communication Function......................................................................30
2.11 F91 Displayed for Maintenance Information................................................31
3. INITIALIZE COMMUNICATION DATA................................ 32
3.1 Communication Data List...............................................................................32
3.2 Data Map .......................................................................................................39
4. INPUT RANGE TABLES..................................................... 45
0037-75426
i-3
MEMO
i-4
0037-75426
1.PROCEDURE FOR INITIALIZATION
Initialization is to set parameters relating to instrument specifications (input type, input range, alarm
type, etc.). Engineering mode that can do this setting.
Initialization flowchart
!"
Power ON
1.1 Transfer to Engineering Mode.
Change from RUN to STOP
See
Unlock the engineering mode
Setting the initial parameter
Lock the engineering mode
End of initialization
1.1 Transfer to Engineering Mode.
See
1.2 Procedure for Parameter Setting
See
2. DETAILS OF PARAMETER SETTING
See
1.3 End of Engineering Mode
See
.
.
.
0037-75426
1
1. PROCEDURE FOR INITIALIZATION
1.1 Transfer to Engineering Mode
The parameter of engineering mode can be changed only in the control STOP state.
1. Press the <R/S key with states of the PV/SV monitor mode for 1 second, to change the STOP
from RUN.
PV
CH
SV
AREA
SET
CH
R/S
STOP display
If set to the STOP state (dSTP) by the contact input, no parameters in Engineering mode
can be changed. They can be changed in case of the following.
• The instrument changed the STOP state (KSTP) by the key operation.
• The instrument changed the STOP state by both the key operation and contact input
operation.
For the RUN/STOP transfer, see the Instruction Manual (0037-75425)
2. Press the <R/S key while pressing the SET key with the PV/SV monitor mode change the
instrument to setup setting mode.
For the setup setting mode, see Instruction Manual (0037-75425).
3. Press the SET key several times to change to the lock level 2 display (LCK2).
4. Press the <R/S key to light brightly the hundreds digit on the SV display.
PV
CH
SV
AREA
SET
CH
R/S
Lock level 2 display
2
0037-75426
1. PROCEDURE FOR INITIALIZATION
5. Press the UP key to change 0 to 1 in the hundreds digit.
PV
CH
AREA
SV
Set value
0000: Lock
0100: Unlock
SET
CH
R/S
Lock level 2 display
6. Press the SET key to unlock the engineering mode. The display changes to the first parameter in
setup setting mode.
AREA
PV
CH
SV
SET
CH
R/S
CH
AREA
PV
SV
SET
CH
R/S
Lock lev el 2 display Autotuning display
7. Press the <R/S key for 2 seconds while pressing the SET key to change the engineering mode.
The display changes to the function block F10.
AREA
PV
CH
SV
SET
CH
R/S
AREA
PV
CH
SV
SET
CH
R/S
Autotuning display
Function block F10 display
Engineering mode
0037-75426
3
1. PROCEDURE FOR INITIALIZATION
1.2 Procedure for Parameter Setting
Flowchart of displaying parameter items
!"
!"
!"!"
Display flowcharts in engineering mode are shown in the following.
[: Press the SET key: Press the UP or DOWN key]
STOP display
selection
PV
SV
(F10.)
(SPCH)
Return to the
F10
Input type
selection
(F21.)
(F22.)
(F24.)
(F31.)(LGo1)(LGo2)
(InP)(UnIT)(PGdP)(SLH)(SLL)
CT ratio 1
selection
(CTr1)
Contact input
logic selection
(dlSL)
Control output
logic selection 1
Alarm output
logic selection
Display unit
selection
CT ratio 2
selection
(CTr2)
Return to the
Control output
logic selection 2
F24
.
Decimal point
position setting
Return to the
Return to the
F22
F31
.
.
Setting limiter
(high limit) setting
Setting limiter
(low limit) setting
Return to the
F21
Any parameter whose channel number is
displayed can be set for each channel.
(Check the channel number on the
channel display of instrument.)
All of the channels can be
simultaneously set as the same value.
All the setting item is displayed regard
less of the contents of the instrument
specification.
.
AB
4
(F32.)
(F41.)
Return to the
(LGA)
Alarm type
selectionAlarm 1
(AS1)(AHo1)(AH1)(ALT1)(AEo1)
Alarm hold
action selection
F32
.
Alarm differential
gap setting
Alarm timer
setting
Action selection at
input error
Return to the
.
F41
0037-75426
1. PROCEDURE FOR INITIALIZATION
A
(F42.)(AS2)
(F43.)(AS3)
(F61.)(CMPS)
B
Alarm 2
Alarm 3
Alarm type
selection
Alarm type
selection
Control action
type selection
(oS)(oH)(F51.)
Communication
protocol selection
ROM version
display
Alarm hold
action selection
(AHo2)
Alarm hold
action selection
(AHo3)
ON/OFF action
differential gap setting
RUN/STOP transfer
logic selection
(CMLG)
Integrated operating
time display
(Upper 3 digits)
Alarm differential
gap setting
(AH2)
Alarm differential
gap setting
(AH3)
Return to the
Return to the
F51
F61
Integrated operating
time display
(Lower 4 digits)
Alarm timer
setting
(ALT2)
Alarm timer
setting
(ALT3)
.
.
Holding peak ambient
temperature display
Action selection at
input error
(AEo2)
Action selection at
input error
(AEo3)
Return to the
.
F42
Return to the
.
F43
(F91.)(E261)(WTH)
(WTL)(TCJ)
Return to the
F91
.
0037-75426
5
1. PROCEDURE FOR INITIALIZATION
!"Example of changing the setting
As setting procedure example, show procedure at setting with each channel (Usual setting) and
channel common (Batch setting).
Example 1:
The following procedure is for changing the CH1 input type from “K” to “J.” (Usual setting)
1. Press the UP key to change the display to F21.
PV
CH
SV
AREA
SET
CH
R/S
Function block display
2. Press the SET key to change to input type selection (InP).
PV
CH
SV
AREA
SET
CH
R/S
Input type selection
3. Press the UP key to enter 1 in the least significant digit of the set value (SV) display.
PV
CH
SV
AREA
SET
CH
Input type selection
6
R/S
0037-75426
1. PROCEDURE FOR INITIALIZATION
4. Press the SET key to register the value thus set. The display changes to the next parameter.
PV
CH
PV
CH
AREA
SV
SET
CH
R/S
AREA
SV
SET
CH
R/S
Display unit selection Input type selection
Example 2:
The following procedure is for changing all channels of the input type from “K” to “J.” (Batch
setting)
1. Press the UP key to change the display to F21.
PV
CH
SV
AREA
SET
CH
Function block display
R/S
2. Press the SET key to change to input type selection (InP).
PV
CH
SV
AREA
SET
CH
Input type selection
R/S
0037-75426
7
1. PROCEDURE FOR INITIALIZATION
3. Press the CH key several times. Display the character A on the CH display and “----” on the SV
display. The character A indicates that the batch setting.
PV
CH
SV
AREA
SET
CH
R/S
Input type selection
Every time the CH key is pressed, the channel number changes as follows.
4. Press the UP key several times to enter 1 in the least significant digit of the set value (SV)
display.
PV
CH
SV
AREA
SET
CH
Input type selection
R/S
5. Press the SET key to register the value thus set. The display changes to the next parameter.
Press the CH key to return to the usual setting from the batch setting.
PV
CH
AREA
SV
SET
CH
R/S
Input type selection
PV
CH
AREA
SV
SET
CH
R/S
Display unit selection
(Batch setting)
PV
CH
AREA
SV
SET
CH
R/S
Display unit selection
(Usual setting)
If the selected parameter corresponds to the setting item in common to all channels, the
simultaneous setting state returns to the normal setting state.
8
0037-75426
1. PROCEDURE FOR INITIALIZATION
1.3 End of Engineering Mode
##
1. Transfer to function block symbol display (F
2. Press the <R/S key for 2 seconds while pressing the SET key to change to the PV/SV monitor
mode from the engineering mode.
3. Press the <R/S key while pressing the SET key with the PV/SV monitor mode change the
instrument to setup setting mode.
4. Press the SET key several times to change to the lock level 2 display (LCK2).
5. Press the <R/S key to light brightly the hundreds digit on the SV display.
6. Press the DOWN key to change 1 to 0 in the hundreds digit.
) after each parameter is set.
PV
AREA
CH
SV
Set value
0000:Lock
0100: Unlock
SET
CH
Lock level 2 display
R/S
7. Press the SET key to lock the engineering mode. The display changes to the first parameter in
setup setting mode.
AREA
PV
CH
SV
SET
CH
R/S
CH
AREA
PV
SV
SET
CH
R/S
Lock level 2 display
Autotuning display
8. Press the <R/S key while pressing the SET key to change to the PV/SV monitor mode from the
setup setting mode. Thus, the initialization ends.
0037-75426
9
2.DETAILS OF PARAMETER SETTING
!"Parameter list
Function blockParameterPage
Display functionSTOP display selection(SPCH)P. 17
(F10.)
(F21.)
Input
specification
Input type selection(InP)P. 18
Display unit selection(UnIT)
Decimal point position selection(PGdP)P. 19
(F22.)
(F24.)
(F31.)
(F32.)
(F41.)
Setting limiter (high limit)
(SLH)
setting
Setting limiter (low limit)
(SLL)
setting
Current
CT ratio 1 selection(CTr1)P. 20
transformer (CT)
input
CT ratio 2 selection(CTr2)
specification
Contact input
If any of the following parameter is changed, the relevant set value is initialized or is automatically
converted.
Before changing the set values, always record all of them (SV setting & CT monitor mode,
setup setting mode, parameter setting mode and engineering mode).
After changing the set values, always check all of them (SV setting & CT monitor mode,
setup setting mode, parameter setting mode and engineering mode).
When changed parameter of input type selection or engineering unit setting
!"
!"
!"!"
When change a input type and unit, all the set value of a list shown below is initialized. Set it in value
to use once again.
Alarm 1 differential gap2 °C [°F]2.0 °C [°F]0.2 % of span
Alarm 1 action at input error0 (Without action at input error)
EngineeringAlarm 2 hold action0 (Without alarm hold action)
modeAlarm 2 differential gap2 °C [°F]2.0 °C [°F]0.2 % of span
Alarm 2 action at input error0 (Without action at input error)
Alarm 3 hold action0 (Without alarm hold action)
Alarm 3 differential gap2 °C [°F]2.0 °C [°F]0.2 % of span
Alarm 3 action at input error0 (Without action at input error)
ON/OFF action differential gap2 °C [°F]2.0 °C [°F]0.2 % of span
Heater break alarm 1OFF
Setup settingHeater break alarm 2
3
OFF
modePV bias0 °C [°F]0.0 °C [°F]0.0 %
Digital filterOFF
1
0: No digit below decimal point
2
1: 1 digit below decimal point
3
In case of 3380, this item is not provided.
12
Continued on the next page.
0037-75426
2. DETAILS OF PARAMETER SETTING
Continued from the previous page.
ModeDescriptionDefault value
TC inputRTD inputVoltage input
Control loop break alarm8.0 minutes
Control loop break alarm
0 °C [°F]0.0 °C [°F]0.0 %
deadband
Alarm 150 °C [°F]50.0 °C [°F]5.0 % of span
Alarm 2
ParameterAlarm 3
setting modeHeat-side proportional band30 °C [°F]30.0 °C [°F]3.0 % of span
Integral time240 seconds
Derivative time60 seconds
Anti-reset windup100 %
Cool-side proportional band *100 % of heat-side proportional band
Overlap/deadband *0 °C [°F]0.0 °C [°F]0.0 %
Setting changing rate limiterOFF
SV setting &
Set value (SV)0 °C [°F]0.0 °C [°F]0.0 %
CT monitor
mode
* In case of 3380, these items are not provided.
0037-75426
13
2. DETAILS OF PARAMETER SETTING
When changed parameter of decimal point position setting
!"
!"
!"!"
When change a decimal point position, it is converted into about set value of a list shown below
automatically. However, the set value may change as a result of changing the position of the decimal
point. Therefore in that case, re-set it to the value to be used.
ModeDescription
Setting limiter [high limit]
Setting limiter [low limit]
Engineering modeAlarm 1 differential gap
Alarm 2 differential gap
Alarm 3 differential gap
ON/OFF action differential gap
Setup setting modePV bias
Control loop break alarm deadband
Alarm 1
Alarm 2
Parameter setting modeAlarm 3
Heat-side proportional band
Overlap/deadband *
Setting changing rate limiter
SV setting & CT monitor modeSet value (SV)
* In case of 3380, this item is not provided.
Example and caution of automatic conversion
• Decimal point location moves in accordance with it when increases decimal point location.
Example: When the position of the decimal point changed from 0 to 1 with SLH set to 800 °C.
(Changed from 800 to 800.0)
(SLH)(SLH)
• If the setting range is not between −1999 and +9999 regardless of the position of the decimal point,
it is limited by the range from −1999 to +9999.
Example: Suppose set SLH is 1372 °C, if change decimal point position from 0 to 1.
SLH becomes 999.9 as it exceeds the setting range.
(SLH)(SLH)
Continued on the next page.
14
0037-75426
2. DETAILS OF PARAMETER SETTING
Continued from the previous page.
• If the number of digits below the decimal point is changed in the decreasing direction, the decreased
number of digits is omitted.
Example: Suppose set SLH is 99.99, if change decimal point position from 0 to 2.
The figures below the decimal point are omitted,
and as a result SLH becomes 99.
(SLH)(SLH)
In the above example, it the position of the decimal point is returned to 2 from 0, SLH
becomes 99.00.
• Set SLL and SLH so that SLL may not be equal to SLH when the position of the decimal point is
changed. Otherwise malfunction may result.
Example: When the position of the decimal point is changed to 0 at SLL=999.1 and SLH=999.9
(SLL)(SLH)(SLL)
When changed parameter of setting limiter [high limit/low limit]
!"
!"
!"!"
(SLH)
When change setting limiter [high limit/low limit], all the set value of a list shown below is initialized.
Set it in value to use once again. However no change is made if the set value is within the range
changed.
ModeDescription
Alarm 1 differential gap
Engineering modeAlarm 2 differential gap
Alarm 3 differential gap
ON/OFF action differential gap
Setup setting modePV bias
Control loop break alarm deadband
Alarm 1
Alarm 2
Parameter setting modeAlarm 3
Heat-side proportional band
Overlap/deadband *
Setting change rate limiter
SV setting & CT monitor modeSet value (SV)
* In case of 3380, this item is not provided.
Example: For temperature input, voltage/current inputs
If the setting is made so that the span becomes narrower, there may be a case where the related set
value becomes smaller or 0.
0037-75426
15
2. DETAILS OF PARAMETER SETTING
When changed parameter of alarm type selection
!"
!"
!"!"
When change alarm 1 type and alarm 2 type, all the set value of a list shown below is initialized. Set it
in value to use once again.
ModeDescriptionDefault value
TC inputRTD inputVoltage input
Alarm 1 hold action0 (Without alarm hold action)
Alarm 1 differential gap2 °C [°F]2.0 °C [°F]0.2 % of span
Alarm 1 action at input error0 (Without action at input error)
Alarm 2 hold action0 (Without alarm hold action)
EngineeringAlarm 2 differential gap2 °C [°F]2.0 °C [°F]0.2 % of span
modeAlarm 2 action at input error0 (Without action at input error)
Alarm 3 hold action0 (Without alarm hold action)
Alarm 3 differential gap2 °C [°F]2.0 °C [°F]0.2 % of span
setting modeAlarm 150 °C [°F]50.0 °C [°F]5.0 % of span
deadband
Alarm 2
Alarm 3
0 °C [°F]0.0 °C [°F]0.0 %
* In case of 3380, this item is not provided.
16
0037-75426
2. DETAILS OF PARAMETER SETTING
2.2 F10 Display function
(1) STOP display selection (SPCH)
Details of settingFactory set value
0000STOP is displayed on the PV display unit. (TYPE 1)0000
0001STOP is displayed on the SV display unit. (TYPE 2)
Displays in the STOP mode become as follows.
TYPE 1
(SPCH=0000)
TYPE 2
(SPCH=0001)
PV
SV
PV
SV
(KSTP)
(KSTP)
PV
SV
PV
SV
(dSTP)
(dSTP)
(SToP)
PV
SV
PV
SV
(SToP)
0037-75426
17
2. DETAILS OF PARAMETER SETTING
2.3 F21 Input Specification
The setting items (InP, UnIT, PGdP, SLH and SLL) in the function block F21 are set for each channel.
In addition, they can be set simultaneously for all channels.
(1) Input type selection (InP)
Details of settingFactory set value
0000KFactory set value
0001Jvaries depending on
0002Rthe input type.
0003S
0004B
0005EThermocouple *
0006N(TC)
0007T
0008W5Re/W26Re
0009PL II
0010U
0011L
0012Pt100RTD *
0013JPt100
00140 to 5 V DCVoltage *
00151 to 5 V DC
00160 to 10 V DC
* Input type cannot be changed because the hardware is different.
See 2.1 Attention Items in Setting (P. 12).
(2) Display unit selection (UnIT)
Details of settingFactory set value
0000°C0000
0001°F
The invalidity in case of the voltage inputs.
See 2.1 Attention Items in Setting (P. 12).
18
0037-75426
2. DETAILS OF PARAMETER SETTING
(3) Decimal point position setting (PGdP)
Details of settingFactory set value
0000No digit below decimal point (!!!!)Note 1
00011 digit below decimal point (!!!.!)
00022 digits below decimal point (!!.!!) *
00033 digits below decimal point (!.!!!) *
* When input type is thermocouple and RTD, no setting can be changed.
Note 1 Factory set value varies depending on the instrument specification.
See. 2.1 Attention Items in Setting (P. 12).
(4) Setting limiter [high limit] (SLH)
Setting limiter [low limit] (SLL)
Details of settingFactory set
K−199 to +1372 °C (−326 to +2502 °F)Factory set
−199.9 to +999.9 °C (−199.9 to +999.9 °F)value varies
J−199 to +1200 °C (−326 to +2192 °F)depending on
−199.9 to +999.9 °C (−199.9 to +999.9 °F)the instrument
R0 to 1769 °C (0 to 3216 °F)specification.
S0 to 1769 °C (0 to 3216 °F)
B0 to 1820 °C (0 to 3308 °F)
E0 to 1000 °C (0 to 1832 °F)
ThermocoupleN0 to 1300 °C (0 to 2372 °F)
0 to 999.9 °C (0 to 999.9 °F)
T−199 to +400 °C (−326 to +752 °F)
−199.9 to +400.0 °C (−199.9 to +752.0 °F)
W5Re/W26Re0 to 2320 °C (0 to 4208 °F)
PL II0 to 1390 °C (0 to 2534 °F)
U−199 to +600 °C (−326 to +1112 °F)
−199.9 to +600.0 °C (−199.9 to +999.9 °F)
L0 to 900 °C (0 to 1652 °F)
RTDPt100 (JIS/IEC
1
)−199.9 to +649.0 °C
JPt100 (JIS)(−199.9 to +999.9 °F)
0 to 5 V DC−1999 to +9999
Voltage
2
1 to 5 V DC(programmable scale)
0 to 10 V DC
1
IEC (International Electrotechnical Commission) is equivalent to JIS, DIN and ANSI.
2
In case of voltage/current inputs, SLH can be set below SLL.
Set the setting limiter referring to the 4. INPUT RANGE TABLES (P. 55).
See. 2.1 Attention Items in Setting (P. 12).
value
0037-75426
19
2. DETAILS OF PARAMETER SETTING
2.4 F22 Current Transformer (CT) Input Specification
If the heater break alarm is selected as the alarm 2, the number of turns* of the current transformer
(CT) used is set for each channel. In addition, it can be set simultaneously for all channels.
* The number of turns = CT ratio
The heater break alarm for three-phase heater can not be specified with 3380.
When the 3380 instrument specification corresponds to contact input or communication
function, the heater break alarm can’t be added. Therefore, do not use this parameter.
CT ratio 1 selection (CTr1) [Heater break alarm for single-phase heater or heater
"#
"#
"#"#
break alarm for three-phase heater]
CT ratio 2 selection (CTr2) [Heater break alarm for three-phase heater]
The setting the CT ratio from CT1 to CT4 can be made when the CT ratio 1 (CTr1) of 3340 is
selected.
The setting the CT ratio from CT1 to CT8 can be made when the CT ratio 1 (CTr1) of 3380 is
selected.
The setting the CT ratio from CT5 to CT8 can be made when the CT ratio 2 (CTr2) is selected.
PV
SV
SET
R/S
AREA
AREA
CH
CH
CH
CH
PV
SV
SET
R/S
Set the CT ratio.
CT ratio 2 selection (CTr2) CT ratio 1 selection (CTr1)
Setting method
When the CTL-6-P-N current transformer is used, set the CT ratio to 800.
When the CTL-12-S56-10L-N current transformer is used, set the CT ratio to 1000.
Details of settingFactory set value
0 to 9999CTL-6-P-N: 800
CTL-12-S56-10L-N: 1000
Continued on the next page.
20
0037-75426
Continued from the previous page.
3340 (Heater break alarm for single-phase heater)
CH displayPV displayDetails of setting
1CTr1Set the CT ratio of CT1.
2Set the CT ratio of CT2.
3Set the CT ratio of CT3.
4Set the CT ratio of CT4.
3340 (Heater break alarm for three-phase heater)
2. DETAILS OF PARAMETER SETTING
CH displayPV displayDetails of setting
1CTr1Set the CT ratio of CT1.
2Set the CT ratio of CT2.
3Set the CT ratio of CT3.
4Set the CT ratio of CT4.
1CTr2Set the CT ratio of CT5.
2Set the CT ratio of CT6.
3Set the CT ratio of CT7.
4Set the CT ratio of CT8.
The CT ratio 2 selection (CTr2) is displayed when the instrument specification is three-phase heater.
3380 (Heater break alarm for single-phase heater)
CH displayPV displayDetails of setting
1CTr1Set the CT ratio of CT1.
2Set the CT ratio of CT2.
0037-75426
3Set the CT ratio of CT3.
4Set the CT ratio of CT4.
5Set the CT ratio of CT5.
6Set the CT ratio of CT6.
7Set the CT ratio of CT7.
8Set the CT ratio of CT8.
21
2. DETAILS OF PARAMETER SETTING
2.5 F24 Contact Input Specification
Setting is common to all channels.
When the 3380 instrument specification corresponds to heater break alarm, the contact input
can't be added. Therefore, do not use this parameter.
Contact input logic selection (diSL)
"#
"#
"#"#
The contact input logic selection sets the set value about the following contents.
STOP selection
•
Selected whether to stop when the contact is opened or when the contact is closed.
Memory area selection
•
Memory area selection 1 to 8: These contents are selected when any of the memory areas from 1
to 8 is selected by the contact input.
Memory area selection 1 to 7: For example, when a digital switch starting from “0” is used,
select the memory area number when the memory area number
must match the digital switch number.
If the selection of the memory areas from 1 to 7 is chosen, no memory area 8 can be
selected by the contact input. In this case, select the memory area by the front key.
Used/unused of DI SET terminal (No. 43)
•
The method of establishment is set when the memory area is selected.
When the DI SET terminal (No. 43) is used:
Select the area 0.5 seconds after the DI SET terminal is closed.
When the DI SET terminal (No. 43) is not used:
Select the memory area 2 seconds after the area is selected.
Details of
setting
0000When contact input
0001When contact input
0002When contact input
STOP selectionMemory area
selection
Memory area transfer
(RUN/STOP transfer)
opens, stop.
Memory area transfer
(RUN/STOP transfer)
opens, stop.
Memory area transfer
(RUN/STOP transfer)
opens, stop.
1 to 8
1 to 8
1 to 7
Used/unused of
DI SET terminal
(No. 43)
Used0000
Unused
Used
Factory
set value
22
Continued on the next page.
0037-75426
Continued from the previous page.
2. DETAILS OF PARAMETER SETTING
Details of
STOP selectionMemory area
setting
0003When contact input
(RUN/STOP transfer)
opens, stop.
0004When contact input
(RUN/STOP transfer)
opens, stop.
0005When contact input
(RUN/STOP transfer) is
closed, stop.
0006When contact input
(RUN/STOP transfer) is
closed, stop.
0007When contact input
(RUN/STOP transfer) is
closed, stop.
0008When contact input
(RUN/STOP transfer) is
closed, stop.
0009When contact input
(RUN/STOP transfer) is
closed, stop.
selection
Memory area transfer
1 to 7
There is no memory
area transfer function.
Memory area transfer
1 to 8
Memory area transfer
1 to 8
Memory area transfer
1 to 7
Memory area transfer
1 to 7
There is no memory
area transfer function.
Used/unused of
DI SET terminal
(No. 43)
Unused
Unused
Used0000
Unused
Used
Unused
Unused
Factory
set value
0037-75426
23
2. DETAILS OF PARAMETER SETTING
2.6 F31 Output Function
"#
"#
3340
"#"#
(1) Control output logic selection 1 (LGo1)
This data is 0000 fixation. This data must not set the set value besides 0000.
Channel
display
1OUT1
2OUT2
3OUT3
4OUT4
Output
number
Details of settingFactory set
value
0000: Heat-side control output of CH10000
0000: Heat-side control output of CH2
0000: Heat-side control output of CH3
0000: Heat-side control output of CH4
(2) Control output logic selection 2 (LGo2)
Select the output logic of the output 2 (OUT5 to OUT8).
The channel number displayed on the CH display unit corresponds to the relevant output number.
The setting is made for each channel number. In addition, OUT5 to OUT8 can be simultaneously set.
Conduct setting so as to meet the instrument specification.
An incorrect setting may cause a malfunction.
Channel
display
1OUT5
2OUT6
3OUT7
1
Setting becomes effective at the time of heat/cool control.
2
Not output when alarm 3 corresponds to the FAIL alarm.
Output
number
Details of settingFactory set
0000: No output
0001: Cool-side control output of CH1
0002: No output
0003: No output
0004: Alarm 3 of CH1
0005: Alarm 3 of CH2
0006: Alarm 3 of CH3
0007: Alarm 3 of CH4
2
2
2
2
0008 to 0011: No output
0000: No output
0001: Cool-side control output of CH2
0002 to 0007: Same as OUT5
0008 to 0011: No output
0000: No output
0001: Cool-side control output of CH3
0002 to 0007: Same as OUT5
0008 to 0011: No output
value
Factory set
1
value varies
depending on
the input
type.
1
1
Continued on the next page.
24
0037-75426
Continued from the previous page.
3340
Channel
display
Output
number
2. DETAILS OF PARAMETER SETTING
Details of settingFactory set
value
4OUT8
0000: No output
0001: Cool-side control output of CH4
*
0002 to 0007: Same as OUT5
0008 to 0011: No output
*
Setting becomes effective at the time of heat/cool control.
"#
"#
3380
"#"#
(1) Control output logic selection 1 (LGo1)
This data is 0000 fixation. This data must not set the set value besides 0000.
Channel
display
1OUT1
2OUT2
3OUT3
4OUT4
Output
number
Details of settingFactory set
0000: Heat-side control output of CH10000
0000: Heat-side control output of CH2
0000: Heat-side control output of CH3
0000: Heat-side control output of CH4
Factory set
value varies
depending on
the input
type.
value
(2) Control output logic selection 2 (LGo2)
This data is 0000 fixation. This data must not set the set value besides 0000.
Channel
display
1OUT5
2OUT6
3OUT7
4OUT8
Output
number
Details of settingFactory set
0000: Heat-side control output of CH50000
0000: Heat-side control output of CH6
0000: Heat-side control output of CH7
0000: Heat-side control output of CH8
value
0037-75426
25
2. DETAILS OF PARAMETER SETTING
2.7 F32 Alarm Output Function
Alarm output logic selection (LGA)
"#
"#
"#"#
Select the alarm output logic of alarm 1 (Normal equipment), alarm 2 (Option) and alarm 3 (Option).
The channel number displayed on the CH display unit corresponds to the relevant alarm. The setting
is made for each channel number. In addition, output logic of alarm 1 to alarm 3 can be
simultaneously set.
Conduct setting so as to meet the instrument specification.
An incorrect setting may cause a malfunction.
Channel
display
1ALM1
2ALM2
3ALM3
AlarmDetails of settingFactory
[Alarm 1]
[Alarm 2]
[Alarm 3]
set value
0000: FAIL alarm
0001: Logical OR of alarm 1 in all channels (E
0002: Logical OR of alarm 2 in all channels (E
0003: Logical OR of alarm 3 in all channels (E
0004: Logical OR of alarm 1 and alarm 2 in all channels
nergized
(E
0005: Logical OR of alarm 1 and alarm 3 in all channels
nergized
(E
0006: Logical OR of alarm 2 and alarm 3 in all channels
nergized
(E
0007: Logical OR of alarm 1, alarm 2 and alarm 3 in all
channels (E
0008: Logical OR of alarm 1 in all channels (De-e
0009: Logical OR of alarm 2 in all channels (De-e
0010: Logical OR of alarm 3 in all channels (De-e
0011: Logical OR of alarm 1 and alarm 2 in all channels
(De-e
0012: Logical OR of alarm 1 and alarm 3 in all channels
(De-e
0013: Logical OR of alarm 2 and alarm 3 in all channels
(De-e
0014: Logical OR of alarm 1, alarm 2 and alarm 3 in all
channels (De-e
0000 to 0014: Same as ALM10002
0000 to 0014: Same as ALM10003
)
)
)
nergized
nergized
nergized
nergized
)
)
)
)
nergized
)
nergized
nergized
nergized
nergized
nergized
nergized
)
)
)
)
)
)
0001
26
Alarm output is only relay contact output.
0037-75426
2. DETAILS OF PARAMETER SETTING
2.8 F41 Alarm 1 Function
F42 Alarm 2 Function
F43 Alarm 3 Function
(1) Alarm type selection (AS1, AS2, AS3)
Details of settingFactory set value
3, 4
1
2
Factory set value
0000Alarm not provided
0001SV high alarmvaries depending
0002SV low alarmon the instrument
0003Process high alarmspecification.
0004Process low alarm
0005Deviation high alarm
0006Deviation low alarm
0007Deviation high/low alarm
0008Band alarm
0009Control loop break alarm
0010Heater break alarm
1
When instrument specification is failure alarm, set 0000.
2
When control action type is heat/cool control, do not select.
3
When control output is current output, do not select.
4
When the contact input or the communication function is selected as instrument specifications of
3380, the heater break alarm can’t be added.
See 2.1 Attention Items in Setting (P. 12).
(2) Alarm hold action selection (AHo1, AHo2, AHo3)
Details of settingFactory set value
0000Without alarm hold action0000
0001Effective when the power is turned on, or operation is changed
from STOP to RUN.
0002Valid when:
• the power is turned on,
• operation is changed from STOP to RUN,
• the SV is changed, or
• the memory area (control area) is changed.
The alarm hold action function can not be added to the FAIL alarm, SV alarm, control loop
break alarm and heater break alarm.
0037-75426
27
2. DETAILS OF PARAMETER SETTING
(3) Alarm differential gap setting (AH1, AH2, AH3)
Set the alarm differential gap for each channel. In addition, they can be set simultaneously for all
channels.
Details of settingFactory set value
Thermocouple0 (0.0) to spanNote 1
RTD
Voltage
Note 1 TC and RTD inputs: 2 °C [°F] or 2.0 °C [°F]
Voltage inputs:0.2 % of span
(4) Alarm timer setting (ALT1, ALT2, ALT3)
Set the time until an alarm is actually output after being set to the alarm state.
Details of settingFactory set value
0 to 6000 seconds0
Setting is common to all channels.
The alarm timer function:
The alarm timer function regards the period until the alarm timer is set after measured value
(PV) or deviation exceeds the alarm set value as a non-alarm state and outputs an alarm after
the alarm timer setting time elapses.
The alarm timer starts being activated if the alarm is turned on. In addition, if the alarm state
is released while the alarm timer is being activated, no alarm is output.
Example: When set the alarm timer for 100 seconds
Measured value (PV)
Alarm
set value
Set value
(SV)
28
Alarm output
Alarm timer
(20 seconds)
Alarm timer
(100 seconds)
ON
When instrument specification is FAIL alarm, the alarm timer function does not operate.
0037-75426
2. DETAILS OF PARAMETER SETTING
(5) Action selection at input error (AEo1, AEo2, AEo3)
Set the alarm action in input abnormality by input break (when the input is over-scaled or
underscaled).
Details of settingFactory set value
0000Normal processing:
0000
The alarm action set by alarm type selection (AS1/AS2) is taken
even if the input is abnormal.
0001Forcibly turned on when abnormal:
The alarm is forcibly turned on regardless of the alarm action set
by alarm type selection (AS1/AS2) when the input is abnormal.
For a voltage input of 0 to 5 V DC or 0 to 10 V DC, as over-scale or underscale does not
occur when the input breaks, no alarm is turned on.
2.9 F51 Control Action
The setting items (oS and oH) in the function block F51 are set for each channel. In addition, they can
be set simultaneously for all channels.
(1) Control action type selection (oS1)
Match the setting with the instrument specification. Otherwise malfunction may result.
The 3380 does not perform heat/cool control.
Details of settingFactory set value
0000D type: PID control with autotuning (Direct action)
0001F type: PID control with autotuning (Reverse action)
0002W type: Heat/cool PID control with autotuning (Water cooling)
0003A type: Heat/cool PID control with autotuning (Air cooling)
1
When instrument specification corresponds to heat/cool control, this set value can’t be set.
2
When instrument specification corresponds to heat control, this set value can’t be set.
1
1
2
2
Note 1 Factory set value varies depending on the instrument specification.
(2) ON/OFF action differential gap setting (oH)
Details of settingFactory set value
Thermocouple0 (0.0) to spanNote 1
RTD
Voltage
Note 1 TC and RTD inputs: 2 °C [°F] or 2.0 °C [°F]
Voltage inputs:0.2 % of span
Note 1
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29
2. DETAILS OF PARAMETER SETTING
2.10 F61 Communication Function
(1) Communication protocol selection (CMPS)
If the protocol is selected, always turn the power on again or select RUN from STOP.
When the 3380 instrument specification corresponds to heater break alarm, the
communication function can't be added. Therefore, do not use this parameter.
Details of settingFactory set value
0001Modbus communication protocol0001
(2) RUN/STOP transfer logic selection
Select the logic of RUN/STOP transfer in the communication mode.
Details of settingFactory set value
0000Set in 0: STOP mode
Set in 1: RUN mode
0001Set in 0: RUN mode
Set in 1: STOP mode
0000
30
0037-75426
2. DETAILS OF PARAMETER SETTING
2.11 F91 Displayed for Maintenance Information
Only displayed for the F91 function block.
(1) ROM version displayed (E261)
Display the version of loading software.
(2) Integrated operating time display (WTH) [upper 3 digits]
Display the integrated operating time (upper 3 digits) of instrument.
Details of display : 0 to 100 (Resolution of display: 10,000 hours)
Up to 1,000,000 from 0 including the upper and lower digits can be displayed.
(3) Integrated operating time display (WTL) [lower 4 digits]
Display the integrated operating time (lower 4 digits) of instrument.
However, as the integral time is increments by 1 when the power is turned on or off.
If the total integrated operating time exceeds 9,999 hours, these digits move to the integrated
operating time display (upper 3 digits).
Details of display : 0 to 9999 (Resolution of display: 1 hours)
(4) Holding peak value ambient temperature display (TCJ)
The maximum ambient temperature on the rear terminal board of the instrument is stored and
displayed on the set value (SV) display.
Details of display : −10 to +100 °C [°F] (Resolution of display: 1°C [°F])
0037-75426
31
3.INITIALIZE COMMUNICATION DATA
3.1 Communication Data List
The communication data list summarizes names, descriptions, factory set values and attributes.
Attribute (RO: Read only, R/W: Read and Write)
The communication data whose name is marked with ! indicates that corresponding to the
memory area.
NameData rangeFactory set valueAttri-
bute
Setting change rate
limiter !
Setting limiter
[high limit] setting
Setting limiter
[low limit] setting
Digital filter0 to 100 seconds
Input type selection0 to 16 (See P. 18)Note 1R/W
Display unit selection0: °C 1: °F0R/W
Decimal point position
setting
CT ratio 1 selection0 to 9999 (See P. 20)Note 2R/W
CT ratio 2 selection *
ON/OFF action
differential gap setting
0 (0.0) to span/minute
(0: Setting change rate limiter OFF)
Within input range.
See 4. INPUT RANGE TABLES (P. 45)
(0: No digital filter function)
0: No digit below decimal point
1: 1 digit below decimal point
2: 2 digits below decimal point
3: 3 digits below decimal point
0 (0.0) to span
However, 9999 digits of less
0R/W
Note 1R/W
0R/W
Note 1R/W
Note 3R/W
* Do not use CT ratio 2 for the 3380.
Note 1 Factory set value varies depending on the instrument specification.
Note 2 CTL-6-P-N:800
CTL-12-S56-10L-N: 1000
Note 3 TC and RTD inputs: 2 °C [°F] or 2.0 °C [°F]
Voltage input:0.2 % of span
32
Continued on the next page.
0037-75426
Continued from the previous page.
NameData rangeFactory set valueAttri-
Control action type
selection
0: PID control (Direct action)
1: PID control (Reverse action)
2: Heat/cool control (Water cooling)
3: Heat/cool control (Air cooling)
3. INITIALIZE COMMUNICATION DATA
bute
1
1
2
2
1R/W
Alarm 1 type
selection
3
0: No alarm
1: SV high alarm
5
R/W
2: SV low alarm
3: Process high alarm
4: Process low alarm
5: Deviation high alarm
6: Deviation low alarm
7: Deviation high/low alarm
8: Band alarm
4
0R/W
Alarm 1 hold action
selection
5
9: Control loop break alarm
0: Without alarm hold action
1: Effective when the power is turned on,
or operation is changed from STOP to
RUN.
2: Valid when:
• the power is turned on,
• operation is changed from STOP to
RUN,
• the SV is changed, or
• the memory area (control area) is
changed.
Alarm 1 timer setting0 to 6000 seconds (See P. 28)0R/W
Alarm 1
action selection at
input error
Alarm 1
0: Normal processing
1: Forcibly turned on when abnormal
(See P. 29)
0 (0.0) to spanNote 1R/W
0R/W
differential gap setting
1
When the instrument specification is heat/cool control, no setting can be changed.
2
When the instrument specification is only heat control, no setting can be changed.
The 3380 does not perform heat/cool control.
3
When using the FAIL alarm, always set the alarm type to “0: No alarm.”
4
Control loop break alarm can not be specified in case of heat/cool control.
5
The alarm hold action can not be added to the FAIL alarm, SV high alarm, SV low alarm, control
loop break alarm and heater break alarm.
Note 1 TC and RTD inputs: 2 °C [°F] or 2.0 °C [°F]
Voltage input:0.2 % of span
0037-75426
Continued on the next page.
33
3. INITIALIZE COMMUNICATION DATA
Continued from the previous page.
NameData rangeFactory set valueAttri-
bute
Alarm 2 type
selection
1
0: No alarm
1: SV high alarm
2: SV low alarm
3: Process high alarm
Factory set value
varies depending on
the instrument
specification.
R/W
4: Process low alarm
5: Deviation high alarm
6: Deviation low alarm
7: Deviation high/low alarm
8: Band alarm
9: No alarm
2, 3
0R/W
Alarm 2 hold action
selection
4
10: Heater break alarm
0: Without alarm hold action
1: Effective when the power is turned on,
or operation is changed from STOP to
RUN.
2: Valid when:
• the power is turned on,
• operation is changed from STOP to
RUN,
• the SV is changed, or
• the memory area (control area) is
changed.
Alarm 2 timer setting0 to 6000 seconds (See P. 28)0R/W
Alarm 2
action selection at
input error
Alarm 2
0: Normal processing
1: Forcibly turned on when abnormal
(See P. 29)
0 (0.0) to spanNote 1R/W
0R/W
differential gap setting
1
When using the FAIL alarm, always set the alarm type to “0: No alarm.”
2
When the control output is current output, no setting can be changed.
3
When the contact input or the communication function is selected as instrument specifications of
3380, the heater break alarm cannot be added.
4
The alarm hold action can not be added to the FAIL alarm, SV high alarm, SV low alarm, control
loop break alarm and heater break alarm.
Note 1 TC and RTD inputs: 2 °C [°F] or 2.0 °C [°F]
Voltage input:0.2 % of span
34
Continued on the next page.
0037-75426
Continued from the previous page.
NameData rangeFactory set valueAttri-
3. INITIALIZE COMMUNICATION DATA
bute
Alarm 3 type
selection
1
0: No alarm
1: SV high alarm
2: SV low alarm
3: Process high alarm
Factory set value
varies depending on
the instrument
specification.
R/W
4: Process low alarm
5: Deviation high alarm
6: Deviation low alarm
7: Deviation high/low alarm
8: Band alarm
Alarm 3 hold action
selection
2
0: Without alarm hold action
1: Effective when the power is turned on,
0R/W
or operation is changed from STOP to
RUN.
2: Valid when:
• the power is turned on,
• operation is changed from STOP to
RUN,
• the SV is changed, or
• the memory area (control area) is
changed.
Alarm 3 timer setting0 to 6000 seconds (See P. 28)0R/W
Alarm 3
action selection at
input error
Alarm 3
0: Normal processing
1: Forcibly turned on when abnormal
(See P. 29)
0 (0.0) to spanNote 1R/W
0R/W
differential gap setting
Control output logic
selection 1
OUT1
0: Heat-side control output of CH1
3
0
OUT2
3
0: Heat-side control output of CH2
OUT3
3
0: Heat-side control output of CH3
OUT4
3
0: Heat-side control output of CH4
1
When using the FAIL alarm, always set the alarm type to “0: No alarm.”
2
The alarm hold action can not be added to the FAIL alarm, SV high alarm, SV low alarm, control
loop break alarm and heater break alarm.
3
This data is 0 fixation. This data must not set the set value besides 0.
Note 1 TC and RTD inputs: 2 °C [°F] or 2.0 °C [°F]
Voltage input:0.2 % of span
Continued on the next page.
0037-75426
35
3. INITIALIZE COMMUNICATION DATA
Continued from the previous page.
NameData rangeFactory set valueAttri-
bute
Control output logic
selection 2
•••• 3340 (OUT5 to OUT8)
OUT5
0: No output
1: Cool-side control output of CH1
2: No output
3: No output
4: Alarm 3 of CH1
5: Alarm 3 of CH2
6: Alarm 3 of CH3
7: Alarm 3 of CH4
2
2
2
2
8 to 11: No output
OUT6
0: No output
1: Cool-side control output of CH2
2 to 11: Same as OUT5
OUT7
0: No output
1: Cool-side control output of CH3
2 to 11: Same as OUT5
OUT8
0: No output
1: Cool-side control output of CH4
2 to 11: Same as OUT5
Factory set value
R/W
varies depending on
the instrument
1
1
1
1
specification.
•••• 3380 (OUT5 to OUT8)
OUT5
0: Heat-side control output of CH5
OUT6
0: Heat-side control output of CH6
OUT7
0: Heat-side control output of CH7
OUT8
0: Heat-side control output of CH8
1
Setting becomes effective at the time of heat/cool control.
2
Not output when alarm 3 corresponds to the FAIL alarm.
3
This data is 0 fixation. This data must not set the set value besides 0.
36
3
3
3
3
Continued on the next page.
0037-75426
3. INITIALIZE COMMUNICATION DATA
Continued from the previous page.
NameData rangeFactory set valueAttri-
bute
Alarm output
logic
selection *
STOP display
selection
0: FAIL alarm
1: Logical OR of alarm 1 in all channels
(Energized)
2: Logical OR of alarm 2 in all channels
(Energized)
3: Logical OR of alarm 3 in all channels
(Energized)
4: Logical OR of alarm 1 and alarm 2 in all
channels (Energized)
5: Logical OR of alarm 1 and alarm 3 in all
channels (Energized)
6: Logical OR of alarm 2 and alarm 3 in all
channels (Energized)
7: Logical OR of alarm 1, alarm 2 and alarm 3 in
all channels (Energized)
8: Logical OR of alarm 1 in all channels
(De-energized)
9: Logical OR of alarm 2 in all channels
(De-energized)
10: Logical OR of alarm 3 in all channels
(De-energized)
11: Logical OR of alarm 1 and alarm 2 in all
channels (De-energized)
12: Logical OR of alarm 1 and 3 of all channels
(De-energized)
13: Logical OR of alarm 2 and alarm 3 in all
channels (De-energized)
14: Logical OR of alarm 1, alarm 2 and alarm 3 in
all channels (De-energized)
0: It makes display “STOP” in PV display.
1: It makes display “STOP” in SV display.
Alarm 1: 1
R/W
Alarm 2: 2
Alarm 3: 3
0R/W
* The logic of alarm output can be set for each alarm (alarm 1 to alarm 3).
0037-75426
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37
3. INITIALIZE COMMUNICATION DATA
Continued from the previous page.
NameData rangeFactory set valueAttri-
bute
Contact input logic
selection
Communication
0 to 9
See contact input logic tables
1: Modbus communication protocol1R/W
protocol selection
RUN/STOP transfer
logic selection
0: 0 (STOP)1 (RUN)
1: 0 (RUN)1 (STOP)
Contact input logic tables
Set valueSTOP selectionMemory area
selection
0When contact input (RUN/STOP
transfer) opens, stop.
1When contact input (RUN/STOP
transfer) opens, stop.
2When contact input (RUN/STOP
transfer) opens, stop.
3When contact input (RUN/STOP
transfer) opens, stop.
4When contact input (RUN/STOP
transfer) opens, stop.
Memory area
transfer 1 to 8
Memory area
transfer 1 to 8
Memory area
transfer 1 to 7
Memory area
transfer 1 to 7
There is no
memory area
transfer function.
5When contact input (RUN/STOP
transfer) is closed, stop.
6When contact input (RUN/STOP
transfer) is closed, stop.
7When contact input (RUN/STOP
transfer) is closed, stop.
8When contact input (RUN/STOP
transfer) is closed, stop.
9When contact input (RUN/STOP
transfer) is closed, stop.
Memory area
transfer 1 to 8
Memory area
transfer 1 to 8
Memory area
transfer 1 to 7
Memory area
transfer 1 to 7
There is no
memory area
transfer function.
0R/W
0R/W
Used/Unused of
DI SET terminal (No.43)
Used
Unused
Used
Unused
Unused
Used
Unused
Used
Unused
Unused
38
For details of the selection item, see the 2.5 F24 Contact Input Specification (P. 22).
0037-75426
3. INITIALIZE COMMUNICATION DATA
3.2 Data Map
Reference to data map
!"
This data map summarizes the data addresses, channels and names that can be used with Modbus
protocol. For details on each data range, see 3.1 Communication Data List(P. 32).