MADE IN
USA
Use r ’s Gu id e
Shop on line at
www.omega.com
e-mail: info@omega.com
iSeries info:
www.omega.com/specs/iseries
Te m p e ra tu re & Pro ce ss Co n tro lle r Ma n u a l
CNi8, CNi8C, CNi8DH, CNi8DV,
CNi16, CNi16D, CNi32
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TABLE OF CONTENTS
Part 1: Introduction............................................................................................2
1.1
1.2
1.3
Description .................................................................................2
Safety Considerations ...............................................................3
Before You Begin .......................................................................4
Part 2: Setup.......................................................................................................5
2.1
2.2
2.3
Front Panel .................................................................................6
Rear Panel Connections............................................................7
Electrical Installation .................................................................7
2.3.1 Power Connections........................................................7
2.3.2 Thermocouple - Input Connection................................8
2.3.3 Two / Three / Four Wire RTD-Hookups.........................9
2.3.4 Process Current - Wiring Hookup...............................10
2.3.5 Process Voltage - Wiring Hookup...............................10
2.3.6 Wiring Outputs - Wiring Hookup.................................11
2.3.7 Dual Display Color Setup ............................................13
Part 3: Operation: Configuration Mode .........................................................14
3.1
Introduction ..............................................................................14
Turning your Instrument On for the First Time
Buttons Functions in Configuration Mode
3.2
Menu Configuration ................................................................15
3.2.1 ID Number .....................................................................16
3.2.2 Setpoints.......................................................................17
3.2.3 Configuration Menu ....................................................18
3.2.4 Input Type Menu...........................................................18
Input Type (Thermocouple) ........................................19
Input Type (RTD)...........................................................20
Input Type (Process) ...................................................21
3.2.5 Reading Configuration Menu .....................................21
3.2.6 Alarm 1 Menu ...............................................................25
3.2.7 Analog Output (Retransmission) Menu......................29
3.2.8 Alarm 2 Menu................................................................32
3.2.9 Loop Break Time Menu/Field Calibration...................33
3.2.10 Output 1 Menu ..............................................................35
3.2.11 Output 2 Menu ..............................................................42
3.2.12 Ramp and Soak Menu..................................................45
3.2.13 ID Code Menu ...............................................................47
3.2.14 Communication (Options) Menu.................................49
3.2.15 Display Color Selection Menu.....................................55
Part 4: Specifications ......................................................................................58
Part 5: Factory Preset Values .........................................................................62
Part 6: CE APPROVAL INFORMATION...........................................................64
i
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LIST OF FIGURES:
Figure 2.1
Figure 2.2
Figure 2.3
Figure 2.4
Figure 2.5
Figure 2.6
Front Panel Display..............................................................................5
Rear Panel Power and Output Connector Labels..............................6
Rear Panel Input Connector Labels....................................................6
Main Power Connections.....................................................................7
Thermocouple Wiring Hookup ............................................................8
Two/Three/Four-wire RTD
a) RTD-1000 ohm and 500 ohm Wiring Hookup ..............................9
b) RTD-100 ohm Wiring Hookup .......................................................9
Process Current Wiring Hookup
Figure 2.7
Figure 2.8
(Internal and External Excitation) .....................................................10
Process Voltage Wiring Hookup
a) Without Sensor Excitation ..........................................................10
b) With Sensor Excitation................................................................10
Output Connections:
Figure 2.9
a) Mechanical Relay and SSR Outputs – Wiring Hook up............11
b) Pulse and Analog Outputs – Wiring Hook up............................11
Typical Application .............................................................................11
Communication Output:
Figure 2.10
Figure 2.11
a) RS-232 Output – Wiring Hook up ...............................................12
b) RS-485 Output – Wiring Hook up ...............................................12
Excitation Output................................................................................12
Snubber Circuits Wiring Hookup......................................................12
i/8DH and i/8DV Locations of S1 and Jumper Positions ................13
i/16D Location of S1 and Jumper Positions ....................................13
Flow Chart for ID and Setpoints........................................................15
Flow Chart for Configuration Menu ..................................................18
Flow Chart for Input Type Menu........................................................18
Flow Chart for Reading Configuration .............................................21
Flow Chart for Alarm 1.......................................................................25
Flow Chart for Analog Output (Retransmission).............................29
Flow Chart for Alarm 2.......................................................................32
Flow Chart for Loop Break Time/Field Calibration..........................33
Flow Chart for Output 1 .....................................................................35
Flow Chart for Output 2 .....................................................................42
Flow Chart for Ramp and Soak .........................................................45
Flow Chart for ID Code.......................................................................47
Flow Chart for Communication Option ............................................49
Flow Chart for Display Color Selection............................................55
Figure 2.12
Figure 2.13
Figure 2.14
Figure 2.15
Figure 3.1
Figure 3.2
Figure 3.3
Figure 3.4
Figure 3.5
Figure 3.6
Figure 3.7
Figure 3.8
Figure 3.9
Figure 3.10
Figure 3.11
Figure 3.12
Figure 3.13
Figure 3.14
LIST OF TABLES:
Table 2.1
Table 2.2
Table 2.3
Table 2.4
Table 3.1
Table 3.2
Table 4.1
Table 5.1
Front Panel Annunciators....................................................................5
Rear Panel Connector..........................................................................6
Fuse Requirement ................................................................................7
TC Wire Color Chart .............................................................................8
Button Function in Configuration Mode...........................................14
Conversion Table................................................................................24
Input Properties..................................................................................61
Factory Preset Values ........................................................................62
ii
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NOTES, WARNINGS and CAUTIONS
Information that is especially important to note is identified by following labels:
• NOTE
• WARNING or CAUTION
• IMPORTANT
• TIP
NOTE: Provides you with information that is important to successfully
setup and use the Programmable Digital Meter.
CAUTION or WARNING: Tells you about the risk of electrical shock.
CAUTION, WARNING or IMPORTANT: Tells you of circumstances or
practices that can effect the instrument’s functionality and must refer
to accompanying documents.
TIP: Provides you helpful hints.
1
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PART 1
INTRODUCTION
1.1 Description
This device can be purchased as monitor (read process value only) or as
a controller.
•
The iSeries controller offers unparalleled flexibility in process measurement.
Each unit allows the user to select the input type, from 10 thermocouple
types (J, K, T, E, R, S, B, C, N and J DIN), Pt RTDs (100, 500 or 1000 Ω,
with either 385 or 392 curve), DC voltage, or DC current. The voltage/current
inputs are fully scalable to virtually all engineering units, with selectable
decimal point, perfect for use with pressure, flow or other process input.
•
•
The temperature control can be achieved by using on/off or PID heat/cool
control strategy. Control can be optimized with an auto tune feature. The
instrument offers a ramp to setpoint with timed soak period before switching
off the output.
The iSeries device features a large, three color programmable display with
capability to change a color every time the Alarm is triggered. The standard
features include dual outputs with relay, SSR, dc pulse, analog voltage or
current. Options include programmable RS-232 or RS-485 serial
communication and excitation. Analog Output is fully scalable and may be
configured as a proportional controller or retransmission to follow your
display. Universal power supply accepts 90 to 240 Vac. Low voltage power
option accepts 24 Vac or 12 to 36 Vdc.
2
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1.2 Safety Considerations
This device is marked with the international caution symbol. It is important
to read this manual before installing or commissioning this device as it
contains important information relating to Safety and EMC
(Electromagnetic Compatibility).
This instrument is a panel mount device protected in accordance with
EN 61010-1:2001, electrical safety requirements for electrical equipment
for measurement, control and laboratory. Installation of this instrument
should be done by qualified personnel. In order to ensure safe operation,
the following instructions should be followed.
This instrument has no power-on switch. An external switch or circuit-
breaker shall be included in the building installation as a disconnecting
device. It shall be marked to indicate this function, and it shall be in close
proximity to the equipment within easy reach of the operator. The switch or
circuit-breaker shall meet the relevant requirements of IEC 947–1 and
IEC 947-3 (International Electrotechnical Commission). The switch shall
not be incorporated in the main supply cord.
Furthermore, to provide protection against excessive energy being drawn
from the main supply in case of a fault in the equipment, an overcurrent
protection device shall be installed.
•
•
•
Do not exceed voltage rating on the label located on the top of the
instrument housing.
Always disconnect power before changing signal and power
connections.
Do not use this instrument on a work bench without its case for safety
reasons.
•
•
•
Do not operate this instrument in flammable or explosive atmospheres.
Do not expose this instrument to rain or moisture.
Unit mounting should allow for adequate ventilation to ensure
instrument does not exceed operating temperature rating.
Use electrical wires with adequate size to handle mechanical strain
and power requirements. Install without exposing bare wire outside the
connector to minimize electrical shock hazards.
•
EMC Considerations
•
•
•
•
Whenever EMC is an issue, always use shielded cables.
Never run signal and power wires in the same conduit.
Use signal wire connections with twisted-pair cables.
Install Ferrite Bead(s) on signal wires close to the instrument if EMC
problems persist.
Failure to follow all instructions and warnings may result in injury!
3
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1.3 Before You Begin
Inspecting Your Shipment:
Remove the packing slip and verify that you have received everything
listed. Inspect the container and equipment for signs of damage as soon
as you receive the shipment. Note any evidence of rough handling in
transit. Immediately report any damage to the shipping agent. The carrier
will not honor damage claims unless all shipping material is saved for
inspection. After examining and removing the contents, save the packing
material and carton in the event reshipment is necessary.
Customer Service:
If you need assistance, please call the nearest Customer Service
Department, listed in this manual.
Manuals, Software:
The latest Operation and Communication Manual as well as free
configuration software and ActiveX controls are available from the
website listed in this manual or on the CD-ROM enclosed with your
shipment.
For first-time users: Refer to the QuickStart Manual for basic operation
and set-up instructions.
If you have the Serial Communications/Ethernet Option you can easily
configure the controller on your computer or on-line.
To Disable Outputs:
To ensure that menu changes are properly stored, Standby Mode should
be used during setup of the instrument. During Standby Mode, the
instrument remains in a ready condition, but all outputs are disabled.
Standby Mode is useful when maintenence of the system is necessary.
When the instrument is in "RUN" Mode, push d twice to disable all
outputs and alarms. It is now in "STANDBY" Mode. Push d once more
to resume "RUN" Mode.
PUSH d TWICE to disable the system during an EMERGENCY.
To Reset the Meter:
When the controller is in the "MENU" Mode, push c once to direct
controller one step backward of the top menu item.
Push c twice to reset controller, prior to resuming "Run" Mode except
after "Alarms", that will go to the "Run" Mode without resetting the
controller.
4
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Refer to the Quick Start
Guide for assembly and
disassembly instructions.
PART 2
SETUP
2.1 Front Panel
Figure 2.1 Front Panel Display
Table 2.1 Front Panel Annunciators
1
2
°C
°F
PV
SV
a
Output 1/Setpoint 1/ Alarm 1 indicator
Output 2/Setpoint 2/ Alarm 2 indicator
°C unit indicator
°F unit indicator
Upper Display shows the Process Value
Lower Display shows the Setpoint 1 Value
Changes display to Configuration Mode
and advances through menu items*
Used in Program Mode and Peak Recall*
Used in Program Mode and Valley Recall*
Accesses submenus in Configuration Mode
and stores selected values*
b
c
d
* See Part 3 Operation: Configuration Mode
The Dual Display model allows the user to observe the Process Value
(upper display) and Setpoint 1 Value (lower display) at the same time.
5
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2.2 Rear Panel Connections
The rear panel connections are shown in Figures 2.2 and 2.3.
6
5
4
6
5
4
6
5
4
3
2
1
3
2
1
8
7
6
5
4
3
2
1
Figure 2.2 Rear Panel Power and Output Connections
Figure 2.3 Rear Panel Input Connections
Table 2.2 Rear Panel Connector
POWER
AC/DC Power Connector: All models
Input Connector:
INPUT
All models TC, PR (Process), RTD
OUTPUT 1 Based on one of the following models:
Relay SPDT
Solid State Relay
Pulse
Analog Output (Voltage and Current)
OUTPUT 2 Based on one of the following models:
Relay SPDT
Solid State Relay
Pulse
Based on one of the following models:
OPTION
RS-232C or RS-485 programmable
Excitation
6
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2.3 Electrical Installation
2.3.1 Power Connections
Caution: Do not connect power to your device until you have completed all
input and output connections. Failure to do so may result in injury!
Connect the main power connections as shown in Figure 2.4.
Use copper conductors
only for power connections
Figure 2.4 Main Power Connections
Table 2.3 Fuse Requirement (see specifications)
FUSEConnector
Output
Power
Power
Type
N/A
N/A
For
115Vac
100 mA(T)
N/A
For
100 mA(T)
400 mA(T)
230Vac
FUSE 1
FUSE 2
100 mA(T)
N/A
For the low voltage power option, in order to maintain the same degree of
protection as the standard high voltage input power units (90 - 240 Vac),
always use a Safety Agency Approved DC or AC source with the same
Overvoltage Category and pollution degree as the standard AC unit (90 -
240 Vac).
The Safety European Standard EN61010-1 for measurement, control,
and laboratory equipment requires that fuses must be specified based on
IEC127. This standard specifies for a Time-lag fuse, the letter code “T”.
The above recommended fuses are of the type IEC127-2-sheet III. Be
aware that there are significant differences between the requirements
listed in the UL 248-14/CSA 248.14 and the IEC 127 fuse standards. As a
result, no single fuse can carry all approval listings. A 1.0 Amp IEC fuse
is approximately equivalent to a 1.4 Amp UL/CSA fuse. It is advised to
consult the manufacturer’s data sheets for a cross-reference.
7
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2.3.2 Thermocouple
The figure below shows the wiring hookup for any thermocouple type. For
example, for Type K hookup, connect the yellow wire to the "2" terminal and the
red wire to the "1(-)" terminal.
When configuring your controller, select Thermocouple and Thermocouple
Type in the Input Type menu (see Part 3).
Figure 2.5 Thermocouple Wiring Hookup
Table 2.4 TC Wire Color Chart
TYPEInput
Connector
Jacket
Extension
dark-Brown
(external
Grade
Black
insulation)
Terminal 1 (-) Terminal 2 (+)
J
K
T
Red
Red
Red
Red
Red
Red
Red
Red
White
Yellow
Blue
dark-Brown
dark-Brown
Yellow
Blue
E
N
R
S
B
Purple
Orange
Black
Black
Gray
dark-Brown
dark-Brown
Purple
Brown
Green
Green
Black
-
-
-
8
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2.3.3 Two/Three/Four-Wire RTD
The figures below show the input connections and input connector jumpers
(shown in bold lines) required to hookup a 2-, 3- or 4-wire RTD.
RTD (100Ω) 4-Wire
RTD (1000/500Ω) 4-Wire
RTD (100Ω) 3-Wire
RTD (1000/500Ω) 3-Wire
RTD (100Ω) 2-Wire
RTD (1000/500Ω) 2-Wire
Figure 2.6 a) RTD-1000 ohm and
500 ohm Wiring Hookup
b) RTD-100 ohm Wiring Hookup
The two-wire connection is simplest method, but does not compensate for
lead-wire temperature change and often requires calibration to cancel lead-wire
resistance offset.
The three-wire connection works best with RTD leads closely equal in
resistance. The device measures the RTD, plus upper and lower lead drop
voltage and the subtracts twice the measured drop in the lower supply current
lead producing excellent lead-resistance cancellation for balanced
measurements.
The four-wire RTD hookup is applicable to unbalanced lead resistance and
enables the device to measure and subtract the lead voltage, which produces
the best lead-resistance cancellation.
When configuring your controller, select RTD type and RTD value in the
Input Type menu (see Part 3).
If the input wires of the meter get disconnected or broken, it will display
+OPN “Input (+) Open” message except in case of 500/1000 Ω 2-wire
RTD. In this case the display shows -OPN “Input (-) Open” message. For
safety purpose you may want to set up your alarm to be triggered when
input is open. See Alarm 1 & 2 chapters for details.
9
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2.3.4 Process Current
The figure below shows the wiring hookup for Process Current 0 – 20 mA.
Figure 2.7 Process Current Wiring Hookup
(Internal and External Excitation)
When configuring your instrument, select Process Type in the Input Type Menu
(see Part 3).
2.3.5 Process Voltage
The figure below shows the wiring hookup for Process Voltage 0 – 100 mV,
0 – 1 V, 0 – 10 V.
Figure 2.8
a) Process Voltage Wiring Hookup b) Process Voltage Wiring Hookup
with Sensor Excitation
without Sensor Excitation
RL - Voltage limited resistor, which allows to convert 24 Vdc internal excitation
voltage to the appropriate process input value. For instance: if the potentiometer
value is equal to 10 kΩ, the minimum RL is 14 kΩ for 10 V process input.
When configuring your instrument, select Process Type in the Input Type Menu
(see Part 3).
10
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2.3.6 Wiring Outputs
This meter has two factory installed outputs. The SPDT Mechanical Relay, SPST
Solid State Relay, Pulse and Analog Output Connection are shown below.
Use copper conductors
only for power connections
Figure 2.9
a) Mechanical Relay and SSR
Outputs Wiring Hookup
b) Pulse and Analog
Outputs Wiring Hookup
dc CONTROLLED SSR USED WITH TEMPERATURE CONTROLLER WITH dc VOLTAGE SSR DRIVER OUTPUT
TEMPERATURE
CONTROLLER
dc INPUT
CONTROL
SIDE
LOAD
SIDE
SSR
HEATER
4
3
1
2
Vac
Vac
0 or 5 Vdc,
TYPICALLY
FAST BLOW
FUSE
ac CONTROLLED SSR USED WITH TEMPERATURE CONTROLLER WITH MECHANICAL RELAY OUTPUT
TEMPERATURE
CONTROLLER
ac INPUT
CONTROL
SIDE
LOAD
SIDE
SSR
HEATER
4
3
1
2
Vac
Vac
FAST BLOW
FUSE
Vac
DRIVING
SSR
ac CONTROLLED SSR USED WITH TEMPERATURE CONTROLLER WITH TRIAC OUTPUT
CONTROL SIDE
TEMPERATURE
ac INPUT
LOAD
LOAD
SIDE
CONTROLLER
SSR
RESISTOR
HEATER
4
3
1
2
Vac
Vac
FAST BLOW
FUSE
Vac
DRIVING
SSR
Figure 2.10 Typical Applications
11
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This device may have a programmable communication output. The
RS-232 and RS-485 Output Connection are shown below.
External RS-232 connections are not available with -EI or C4EI options.
Figure 2.11
a) RS-232 Output Wiring Hookup b) RS-485 Output Wiring Hookup
This device may also have an
excitation output.
If the Dual Display model has a Low
Voltage power supply option, then
excitation is not available.
Excitation is not available if
communication option is installed.
Figure 2.12 Excitation Output
This device has snubber circuits
designed to protect the contacts of the
mechanical relays when it switches to
inductive loads (i.e. solenoids, relays).
These snubbers are internally
connected between the Common (C)
and Normally Open (NO) relay contacts
of Output 1 and Output 2.
If you have an inductive load
connected between Common (C) and
Normally Closed (NC) contacts of the
mechanical relays and you want to
protect them from the rush current
during the switching period, you have
to connect an external snubber circuit
between Common (C) and Normally
Closed (NC) contacts as indicated in
Figure 2.13.
Figure 2.13
Snubber Circuits Wiring
Hookup
12
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2.3.7 Dual Display Color Setup
The dual display option allows the user to change the color of the upper and
lower displays.
To change the color of the upper display, see Section 3.2.15
(Display Color section).
To change the color of the lower display follow the instructions below:
The unit should be removed from the panel and opened.
Refer to the Quick Start Guide for assembly and disassembly instructions.
The S1 jumper is located on the back side of the display board.
The location of S1 and pin selection jumpers are shown below.
Use a jumper for GREEN or RED, never leave S1 open.
i/8DH
Dual
Horizontal
i/8DV
Dual
Vertical
Figure 2.14 i/8D Location of S1 and Selectable Jumper Positions
Figure 2.15 i/16D Location of S1 and Selectable Jumper Positions
13
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PART 3
OPERATION: Configuration Mode
3.1 Introduction
The instrument has two different modes of operation. The first, Run Mode, is
used to display values for the Process Variable, and to display or clear Peak
and Valley values. The other mode, Menu Configuration Mode, is used to
navigate through the menu options and configure the controller. Part 3 of this
manual will explain the Menu Configuration Mode. For your instrument to
operate properly, the user must first "program" or configure the menu options.
Turning your Controller On for the First Time
The device becomes active as soon as it is connected to a power source. It
has no On or Off switch. The device at first momentarily shows the software
version number, followed by reset
, and then proceeds to the Run Mode.
RST
For first-time users: Refer to the QuickStart Manual for basic operation
and set-up instructions.
If you have the Serial Communications/Ethernet Option you can easily
configure the controller on your computer or on-line.
Table 3.1 Button Function in Configuration Mode
• To enter the Menu, the user must first press button.
a
• Use this button to advance/navigate to the next menu item. The user can navigate
a
MENU
through all the top level menus by pressing
.
a
• While a parameter is being modified, press to escape without saving the parameter.
a
• Press the up button to scroll through “flashing” selections. When a numerical value is
b
displayed press this key to increase value of a parameter that is currently being modified.
• Holding the button down for approximately 3 seconds will speed up the rate at which
the set point value increments.
b
b
(UP)
• In the Run Mode press causes the display to flash the PEAK value – press again to
b
return to the Run Mode.
• Press the down button to go back to a previous Top Level Menu item.
c
• Press this button twice to reset the controller to the Run Mode.
• When a numerical value is flashing (except set point value) press to scroll digits from
c
left to right allowing the user to select the desired digit to modify.
c
(DOWN)
• When a setpoint value is displayed press to decrease value of a setpoint that is
c
currently being modified. Holding the button down for approximately 3 seconds will
c
speed up the rate at which the setpoint value is decremented.
• In the Run Mode press c causes the display to flash the VALLEY value – press again to
return to the Run Mode.
• Press the enter d button to access the submenus from a Top Level Menu item.
• Press d to store a submenu selection or after entering a value — the display will flash a
d
ENTER
message to confirm your selection.
STRD
• To reset flashing Peak or Valley press d.
• In the Run Mode, press d twice to enable Standby Mode with flashing
.
STBY
Reset: Except for Alarms, modifying any settings of the menu configuration
will reset the instrument prior to resuming Run Mode.
14
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3.2 Menu Configuration
It is required that you put the controller in the Standby Mode for any
configuration change other than Setpoints & Alarms.
Figure 3.1 Flow Chart for ID and Setpoints
15
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3.2.1 ID Number
SEE ID MENU SELECTION IN CONFIGURATION SECTION FOR
ENABLE/DISABLE OR CHANGE ID CODE.
If ID Code is Disabled or set as Default (0000) the menu will skip ID step
to Setpoint Menu.
If ID Code is set to Full Security Level and user attempts to enter the
Main Menu, they will be prompted for an ID Code.
If ID Code is set to Setpoint/ID Security Level and user attempts to enter
the Configuration Menu, they will be prompted for an ID Code.
ENTERING YOUR NON-DEFAULT FULL SECURITY ID NUMBER.
Press a
1) Display shows
.
ID
2) Display advances to
Press d
.
____
Press b & c 3) Press to increase digit 0-9. Press to activate next digit
b
c
(flashing). Continue to use and c to enter your 4-digit ID
b
code.
Press d
4) If the correct ID code is entered, the menu will advance to the
Setpoint 1 Menu, otherwise an error message
will be
ERRo
displayed and the instrument will return to the Run Mode.
To change ID Code, see ID Menu in the Configuration section.
ENTERING YOUR NON-DEFAULT SETPOINT/ID SECURITY ID NUMBER.
Press a
Press a
Press a
Press d
5) Display shows
6) Display shows
7) Display shows
Setpoint 1 Menu.
Setpoint 2 Menu.
SP1
SP2
ID Code Menu.
ID
8) Display advances to
.
____
Press b & c 9) Use b and c to change your ID Code.
Press d 10) If correct ID Code is entered, the display will advance to the
Input Menu, otherwise the error message will be
INPT
ERRo
displayed and the controller will return to the Run Mode.
To prevent unauthorized tampering with the setup parameters, the
instrument provides protection by requiring the user to enter the ID Code
before allowing access to subsequent menus. If the ID Code entered
does not match the ID Code stored, the controller responds with an error
message and access to subsequent menus will be denied.
Use numbers that are easy for you to remember. If the ID Code is
forgotten or lost, call customer service with your serial number to access
and reset the default to
.
0000
16
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3.2.2 Set Points
SETPOINT 1:
Press a
1) Press a, if necessary until
prompt appears.
SP1
Press d
2) Display shows previous value of “Setpoint 1”.
Press b & c 3) Press b and c to increase or decrease Setpoint 1
respectively.
Holding b & c buttons down for approximately 3 seconds will speed up the
rate at which the Setpoint value increments or decrements.
Press b & c 4) Continue to use b and c to enter your 4-digit Setpoint 1 value.
Press d
5) Display shows
stored message momentarily and then
STRD
only, if a change was made, otherwise press
advances to
SP2
a to advance to
Setpoint 2 Menu.
SP2
SETPOINT 2:
Press d
6) Display shows previous value of “Setpoint 2”.
Press b & c 7) Press b and c to increase or decrease Setpoint 2
respectively.
Holding b & c buttons down for approximately 3 seconds will speed up
the rate at which the setpoint value increments or decrements.
Press d
8) Display shows
stored message momentarily and then
STRD
only, if a change was made, otherwise press
advances to
CNFG
a to advance to
Configuration Menu.
CNFG
17
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3.2.3 Configuration Menu
Figure 3.2 Flow Chart for Configuration Menu
Enter Configuration Menu:
Press a
Press d
Press a
1) Press a, if necessary, until
prompt appear.
CNFG
Input Menu.
2) Display advances to
INPT
3) Pressing and releasing a to scroll through all available
menus of Configuration section.
3.2.4 Input Type Menu
Figure 3.3 Flow Chart for Input Type Menu
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Input Type (Thermocouple)
ENTER INPUT TYPE MENU:
Press a
Press d
Press d
1) Press a, if necessary, until
prompt appears.
CNFG
Input Menu.
2) Display advances to
INPT
3) Display flashes
,
or
(Thermocouple, RTD or
, press a to skip to
T.ç RTD PROC
Process). If the displayed input type is
T.ç
step 6 ( stops flashing).
T.ç
THERMOCOUPLE SUBMENU:
Press b
4) Scroll through the available selection to
(flashing).
T.ç
stored message momentarily and then
Press d
5) Display shows
STRD
(not flashing).
T.ç
Press d
Press b
Press d
6) Display flashes previous thermocouple type selection. i.e.
J
(see below for types).
7) Scroll through the available thermocouple types to the
selection of your choice.
8) Display shows
stored message momentarily and then
STRD
Reading Configuration Menu.
advances to the
RDG
Use the Input Type (Thermocouple) (RTD) or (Process) and verify your
Electrical Installation (see section 2.3).
Thermocouple Types: J, K, T, E, N, DIN J, R, S, B, C
Display:
J K T E N DNJ R S B C
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Input Type (RTD)
ENTER INPUT TYPE MENU:
Press a
Press d
Press d
1) Press a, if necessary, until
prompt appears.
CNFG
Input Menu.
2) Display advances to
INPT
3) Display flashes
,
or
(Thermocouple, RTD or
, press a to skip to
T.ç RTD PROC
Process). If the displayed input type is
RTD
step 6 ( stops flashing).
RTD
RTD SUBMENU:
Press b
4) Scroll through the available selection to
(flashing).
RTD
stored message momentarily and then
Press d
5) Display shows
STRD
(not flashing).
RTD
Press d
Press b
Press d
6) Display flashes previous RTD type selection i.e.
392.2
(see below for RTD types selection).
7) Scroll through the available RTD types to the selection of
your choice.
8) Display shows
stored message momentarily and then
STRD
advances to
RTD value.
RTD
RTD Types: 392
Display:
385
392.2 392.3 392.4 385.2 385.3 385.4
Two, Three or Four-wire
,
,
,
,
,
Last digit indicates: 2-, 3- or 4-wire input.
RTD VALUE SUBMENU:
Press d
Press b
Press d
9) Display flashes previous RTD value selection i.e.
100_
(see below for RTD value selection).
10) Scroll through the available RTD values to the selection of
your choice.
11) Display shows
stored message momentarily and then
STRD
Reading Configuration Menu.
advances to
RDG
RTD Values: 100 ohm
Display:
500 ohm
500_
1000 ohm
1000
100_
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Input Type (Process)
ENTER INPUT TYPE MENU:
Press a
Press d
Press d
1) Press a, if necessary, until
prompt appears.
CNFG
Input Menu.
2) Display advances to
INPT
3) Display flashes
,
or
(Thermocouple, RTD or
, press a to skip to
T.ç RTD PROC
Process). If the displayed input type is
PROC
step 6 ( stops flashing).
PROC
PROCESS SUBMENU:
Press b
4) Scroll through the available selection to
(flashing).
PROC
stored message momentarily and then
Press d
5) Display shows
STRD
(not flashing).
PROC
Press d
Press b
Press d
6) Display flashes previous Process type selection. i.e.
0-10
(see below for Process types selection).
7) Scroll through the available Process types to the selection of
your choice.
8) Display shows
stored message and then advances to
STRD
Reading Configuration Menu.
RDG
Process Types: 100 mV 1 V
10 V
0-0.1 0-1.0 0-10
0 – 20 mA
0-20
Display:
For 4-20 mA Input select 0-20 mA then adjust the Input/Reading accordingly.
To adjust 4-20 mA input, see example under INPUT/READING submenu. The
factory preset value is 4-20 mA.
3.2.5 Reading Configuration
It is required that you put the controller in the Standby Mode for any
configuration change other than Set Points & Alarms.
Figure 3.4 Flow Chart for Reading Configuration Menu
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ENTER READING CONFIGURATION MENU:
Press
Press
Press
Press
1) Press , if necessary, until
prompt appears.
a
d
a
d
a
CNFG
Input Menu.
2) Display advances to
3) Display advances to
4) Display advances to
INPT
RDG
DEC
Reading Configuration Menu.
Decimal Point.
DECIMAL POINT SUBMENU:
Press
5) Display flashes previous selection for Decimal location.
d
b
Press
6) Scroll though the available selections and choose Decimal
location:
or
FFFF FFF.F
(also
and
— if
F.FFF PROC
FF.FF
Process type was selected in the Input Type Menu).
Press
7) Display shows stored message momentarily and then
d
STRD
Temperature Unit.
advances to
TEMP
Decimal Point for Process Input Type is passive.
TEMPERATURE UNIT SUBMENU:
Press
8) Display flashes previous Temperature Unit selection.
9) Scroll though the available selections to the Temperature Unit
of your choice: or
d
b
Press
.
°F °C
10) Display shows
Press
stored message momentarily and then
d
STRD
Filter Constant.
advances to
FLTR
FILTER CONSTANT SUBMENU:
Press
11) Display flashes previous selection for Filter Constant.
d
b
Press
12) Scroll though the available selections:
,
,
,
,
,
,
,
0001 0002 0004 0008 0016 0032 0064 0128
Press
13) Display shows
stored message momentarily only, if
STRD
d
change was made, otherwise press to advance to the next
a
menu.
If Process was selected in the Input Type Menu the display will
advance to
Input/Reading Submenu, otherwise the
IN.RD
display advances to the
Alarm 1 Menu.
ALR1
The Filter Constant Submenu allows the user to specify the
number of readings stored in the Digital Averaging Filter.
For PID control select filter value 0001-0004. A filter value of 2 is
approximately equal to 1 second RC low pass time constant.
22
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Reading Configuration (If Process was selected)
INPUT/READING (SCALE AND OFFSET) SUBMENU:
Input Voltage or Current can be converted or scaled into values appropriate for
the process or signal being measured. So, a reading may be displayed, for
example, in units of weight or velocity instead of in amperes or volts.
The instrument determines Scale and Offset values based on two user-provided
input values entered with the corresponding readings. Note that “In1” Input 1 and
“In2” Input 2 are represented and entered as a product of the input
voltage/current and the conversion number from the Table 3.1.
The following instructions include details for a specific scenario in which a
4-20 mA input (in the 20 mA Process Mode) is to be represented as a
measurement of 0-100 percent.
Press
14) Press at the
prompt. Display shows
Input 1
IN1
d
d
IN.RD
submenu.
st
Press
Press
15) Display shows Input 1 value with 1 digit flashing.
d
b
&
&
16) Use and buttons to enter
value.
c
b
c
IN1
The
value = min. input value * conversion number.
IN1
Disregard the position of the decimal point (2000 counts may
actually appear as “200.0”, “20.00”, or “2.000”).
Example: 4 mA as 4(mA) x 500 = 2000.
Press
Press
17) Display advances to
Reading 1 Submenu.
RD1
d
b
18) Use and buttons to enter
value.
c
b
c
RD1
in terms of some meaningful
This value represents
IN1
engineering units. To show the 4 mA as zero percent enter
RD1
value = 0000.
RD1
19) Display IN!2 Input 2 Submenu.
Example:
value = 0000.
Press
Press
d
d
st
20) Display shows Input 2 value with 1 digit flashing.
The IN!2 value = max. input value * conversion number.
Example: 20(mA) x 500 = 10000 (9999).
Press
Press
Press
&
&
21) Use and c buttons to enter IN!2 value.
b
d
b
c
c
b
22) Display advances to RD!2 Reading 2 Submenu.
23) Use b and c buttons to enter RD!2 value.
Example: RD!2 value = 0100.
Press
24) Display flashes
stored message momentarily and
d
STRD
only, if change was made, otherwise
then advances to
ALR1
to advance to
press
Alarm 1 Menu.
ALR1
d
23
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Conversion number is a coefficient of conversion between input values
and real full display range (10000 counts shown as 9999). See Table 3.2
below for proper conversion number.
Table 3.2 Conversion Table
RANGE
100 mV
1 V
10 V
0 -20 mA
CONVERSION NUMBER
10000 / (100 x 1) = 100
10000 / (1000 x 1) = 10
10000 / (1000 x 10) = 1
10000 / (20 x 1) = 500
Example =
0 - 1 V = 0 - 100.0
In 1 = 0
Rd 1 = 0
Inp 2 = 9999
Rd 2 = 100.0
24
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3.2.6 Alarm 1
This unit is equipped with two physical outputs that can only be configured as
follows: Alarm 1 & Alarm 2, Alarm 1 & Output 2, Output 1 & Alarm 2, Output1
& Output 2, Analog Out 1 & Alarm 2, Analog Out 1 & Output 2. Analog Out
available only if Analog Output Option board is factory installed.
If Analog Output Option is installed, the controller will skip Alarm 1 Menu
item to Analog Output.
Alarm must be DISABLED if Ramp is ENABLED.
Figure 3.5 Flow Chart for Alarm 1
ENTER ALARM 1 MENU:
Press a
Press d
Press a
1) Press a, if necessary, until
prompt appears.
CNFG
Input Menu.
2) Display advances to
INPT
3) Press a, if necessary, until Display advances to
Alarm 1
ALR1
Enable or Disable
ENBL DSBL
Menu.
Press d
4) Display advances to Alarm 1
Submenu and flashes the previous selection.
25
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ALARM 1 ENABLE/DISABLE SUBMENU:
Press b
5) Scroll though the available selection until
displays to
ENBL
use Alarm 1.
Press d
6) Display shows
stored message momentarily and then
STRD
advances to
only if it was changed, otherwise press a to
ABSo
advance to
Alarm 1 Absolute/Deviation Submenu.
ABSo
If
Alarm 1 Disabled was selected, all submenus of Alarm
DSBL
1 Menu will be skipped and meter advances to
Alarm 2
ALR2
Alarm 1 Enabled was selected, Output 1 would
Menu. If
ENBL
be automatically Disabled, and reassigned as Alarm 1.
ALARM 1 ABSOLUTE/DEVIATION SUBMENU:
Press
7) Display flashes previous selection. Press to
ABSo
d
d
b
Absolute or
Deviation.
_DEV
8) Display shows
Press
stored message momentarily and then
STRD
advances to
only if it was changed, otherwise press a to
LTçH
advance to
Alarm 1 Latch/Unlatch Submenu.
LTçH
Absolute Mode allows Alarm 1 to function independently from Setpoint 1. If the
process being monitored does not change often, then "Absolute" Mode is
recommended.
Deviation Mode allows changes to Setpoint 1 to be made automatically to
Alarm 1. Deviation mode is typically the ideal mode if the process temperature
changes often. In Deviation Mode, set Alarm 1 a certain number of degrees or
counts away from Setpoint 1 — this relation remains fixed even if Setpoint 1 is
changed.
ALARM 1 LATCH/UNLATCH SUBMENU:
Press
9) Display flashes previous selection. Press to
LTçH
d
d
b
Latched or
Unlatched.
UNLT
10) Display shows
Press
stored message momentarily and then
STRD
only, if it was changed, otherwise press a to
advances to
CT.CL
Contact Closure Submenu.
advance to
CT.CL
Latched Mode: Relay remains "latched" until reset. To reset already latched
alarm, select Alarm Latch and press Max twice (i.e. Unlatch and then back to
Latch) or from a Run Mode, push twice to put the controller in Standby Mode
d
and then push one more time to return to the Run Mode.
d
Unlatched Mode: Relay remains latched only as long as the alarm condition is
true.
26
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CONTACT CLOSURE SUBMENU:
Press
11) Display flashes previous selection. Press b to
Normally
N.ç.
d
Closed or
Normally Open.
N.o.
12) Display shows
Press
stored message momentarily and then
d
STRD
advances to
only if it was changed, otherwise press to
AçTV
a
advance to
Active Submenu.
AçTV
Normally Open: If this feature is selected, then the relay is "energized" only
when an alarm condition occurs.
Normally Closed: "Fail Safe" Mode. Relay is energized under "normal"
conditions and becomes de-energized during alarm or power failure.
ACTIVE SUBMENU:
Press
13) Display flashes previous selection. Press to scroll through
d
b
Below,
the available selections:
Above,
ABoV
BELo
_DEV
HI.Lo
Deviation was
HI/Low and
selected).
Band. (Band is active if
BAND
Press
14) Display shows
stored message momentarily and then
STRD
d
advances to
only if it was changed, otherwise press a to
A.P.oN
advance to
Submenu.
Alarm Enable/Disable at Power On
A.P.oN
Above: Alarm 1 condition triggered when the process variable is greater than the
Alarm Hi Value (Low value ignored).
Below: Alarm 1 condition triggered when the process variable is less than the
Alarm Low Value (Hi value ignored).
Hi/Low: Alarm 1 condition triggered when the process variable is less than the
Alarm Low Value or above the Hi Value.
Band: Alarm 1 condition triggered when the process variable is above or below
the "band" set around Setpoint 1. Band equals Hi Value (Low Value ignored). A
"band" is set around the Setpoint by the instrument only in the "Deviation" Mode.
The Band for the AL 1 would be following the Setpoint 1 value
The Band for the AL 2 would be following the Setpoint 2 value.
The Band or the Deviation Value should be entered under:
AL1 High (if they want Alarm 1)
AL2 High (if they want Alarm 2)
AL Low value is ignored in the Band mode.
Example: if customer requires a Deviation Value of 10 degrees around a
setpoint (using Output 2 as alarm)
Output 2: disabled (this enables the Alarm 2)
Alarm 2: - Deviation
Contact Closure type: Deviation---Band
AL2 High: 10 (Band they want around Setpoint 2)
Then the Band Value is to be entered under AL2 HI: 10 not 80+10 = 90
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ALARM ENABLE/DISABLE AT POWER ON:
Press 15) Display flashes previous selection. Press to enable
ENBL
d
b
or
disable.
DSBL
16) Display shows
Press d
stored message. momentarily and then
STRD
only if it was changed, otherwise press to
advances to
ALR.L
advance to the
a
Alarm 1 Low Value Submenu.
ALR.L
If the alarm is enabled at Power On, the alarm will be active right after
reset. If the alarm is disabled at Power On, the alarm will become
enabled when the process value enters the non alarm area. The alarm is
not active while the process value is approaching Setpoint 1.
ALARM 1 LOW VALUE SUBMENU:
st
Press
17) Display flashes 1 digit of previous value. Use and to
d
b
c
enter new value.
Press
Press
&
18) Use and to enter Alarm 1 Low Value.
b
d
c
b
c
19) Display shows
storage message momentarily and
STRD
ALR.H
ALR.H
then advances to
only, if it was changed, otherwise press
a to advance to
Alarm 1 Hi Value Submenu.
ALARM 1 HI VALUE SUBMENU:
st
Press
20) Display flashes 1 digit of previous value. Use and to
d
b
c
enter new value.
Press
Press
&
21) Use and to enter Alarm1 Hi Value.
b
d
c
b
c
22) Display shows
stored message momentarily and then
STRD
advances to the next menu only, if it was changed, otherwise
press to advance to the next menu.
a
28
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3.2.7 Analog Output (Retransmission)
Analog Output can be configured as Retransmission or Control outputs.
In this section we will discuss Retransmission Output.
This unit is equipped with two physical outputs that can only be configured as
follows: Alarm 1 & Alarm 2, Alarm 1 & Output 2, Output 1 & Alarm 2, Output
1 & Output 2, Analog Out 1 & Alarm 2, Analog Out 1 & Output 2. Analog
Output is available only, if Analog Output Option board is factory installed.
If Analog Output Option is not installed, the instrument will skip to Alarm 2 Menu.
Figure 3.6 Flow Chart for Analog Output (Retransmission)
ENTER ANALOG OUTPUT MENU:
Press
Press
Press
1) Press , if necessary, until
prompt appears.
a
d
a
a
CNFG
Input Menu.
2) Display advances to
INPT
3) Press , if necessary, until Display advances to
a
ANLG
Analog Output Menu.
Press
4) Display advances to Analog Output
Enable or
ENBL DSBL
d
Disable Submenu and flashes the previous selection.
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ANALOG OUTPUT ENABLE/DISABLE SUBMENU:
Press
5) Scroll though the available selection until
displays to
ENBL
b
use Analog Output Retransmission (output proportional to the
input signal).
Press
6) Display shows
stored message momentarily and then
d
STRD
or
advances to
Submenu only if it was changed,
CURR VoLT
otherwise press a to advance to
or
CURR VoLT
Current/Voltage Submenu.
If
Analog Output Disabled was selected, all submenus of Analog
DSBL
Output Menu will be skipped and the meter will advance to
Alarm 2
ALR2
Analog Output Enabled was selected, Output 1 would be
Menu. If
ENBL
automatically Disabled, and reassigned as Analog Output.
CURRENT/VOLTAGE SUBMENU:
Press
7) Display flashes
Current or Voltage.
VoLT
d
b
CURR
8) Scroll through the available selection: Current or Voltage
(Example ).
Press
VoLT
9) Display shows
Press
stored message momentarily and then
d
STRD
Submenu only if it was changed, otherwise
advances to
RD1
press to advance to
a
Reading 1 Submenu.
RD1
READING 1:
st
Press
10) Display flashes 1 digit of previous “Reading 1” value.
d
b
d
Press
&
11) Enter “Reading 1” value. (Example 0000)
12) Display advances to
c
Press
Out 1 Submenu.
OUT.1
OUT 1:
st
Press d
13) Display flashes 1 digit of previous “Out 1” value.
Press b & c 14) Enter “Out 1” value. (Example 00.00)
Press d
15) Display advances to RD!2 Reading 2 Submenu.
READING 2:
st
Press
16) Display flashes 1 digit of previous “Reading 2” value.
d
b
d
Press
&
17) Enter “Reading 2” value. (Example 9999)
18) Display advances to
c
c
Press
Out 2 Submenu.
OUT.2
OUT 2:
t
st
Press
Press
Press
19) Display flashes 1 digit of previous “Out 2” value.
d
b
d
&
20) Enter “Out 2” value. (Example 10.00)
21) Display advances to the
Alarm 2 Menu.
ALR2
The above example is for 0-10 V of the entire range of the Process Input
and Analog Output. For 0-20 mA output you need to set “Analog Type” to
Current and OUT 2 to 20.00.
30
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Accuracy of Analog Output board is +/-1% of FS (Full Scale) when following
conditions are satisfied:
1. The input is not scaled below 1% of Input FS (10 mV @ 1 V or 0.2 mA @
20 mA input ranges).
2. Analog Output is not scaled below 3% of Output FS (300 mV @ 10 V or
0.6 mA @ 20 mA output ranges).
Otherwise certain corrections need to be applied.
For example:
For entire range of process input, the Analog Output on 10 V FS scaled for
300 mV output range:
Rd1 = 0000, Out1 = 00.00
RD2 = 9999, Out2 = 00.30
The measured output will be as follows:
Rd1 = 0000, Out1 = -0.07 V
Rd2 = 9999, Out2 = 0.23 V
This means that for 300 mV output range we have -70 mV offset at zero and at
full scale. In order to compensate this 70 mV offset the correct scaling will be
as follows:
Rd1 = 0000, Out1 = 00.07
Rd2 = 9999, Out2 = 00.37
The above corrections need to be applied only for Input scaled below 1% of FS
and Output scaled below 3% of FS or if you need the Analog Output
accuracy to be better than 1% of FS.
31
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3.2.8 Alarm 2
This unit is equipped with two physical outputs that can only be configured as
follows: Alarm 1 & Alarm 2, Alarm 1 & Output 2, Output 1 & Alarm 2, Output 1
& Output 2, Analog Out 1 & Alarm 2, Analog Out 1 & Output 2. Analog Out
available only if Analog Output Option board is factory installed.
Alarm must be DISABLED if Ramp is ENABLED.
Figure 3.7 Flow Chart for Alarm 2
ENTER ALARM 2 MENU:
Press
Press
Press
Press
1) Press , if necessary, until
prompt appears.
a
d
a
d
a
CNFG
Input Menu.
2) Display advances to
INPT
3) Press , if necessary, until Display advances to
Alarm 2 Menu.
Disable
a
ALR2
DSBL
4) Display advances to Alarm 2
Enable or
ENBL
Submenu.
ALARM 2 ENABLE/DISABLE SUBMENU:
Press
5) Display flashes previous selection. Press until
displays
ENBL
d
b
to use Alarm 2.
Press
6) Display shows
stored message momentarily and then
STRD
d
advances to
only if it was changed, otherwise press to
ABSo
a
advance to
Absolute/Deviation Submenu.
ABSo
If
Alarm 2 Disabled was selected, all submenus of Alarm 2 will
LOOP
Alarm 2 Enabled was selected, Output 2 will automatically
DSBL
be skipped and meter advances to
Loop Break Time Menu. If
ENBL
Disabled, and reassigned as Alarm 2.
The remaining Alarm 2 menu items are identical to Alarm 1 Menu. Modifying
Alarm Settings will not reset the instrument.
32
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3.2.9 Loop Break Time/Field Calibration
It is required
that you put
the controller
in the Standby Mode
for any configuration
change other than Set
Points & Alarms.
Figure 3.8 Flow Chart for Loop Break Time/Field Calibration
ENTER LOOP BREAK TIME MENU:
Press
Press
Press
1) Press , if necessary, until
prompt appears.
a
d
a
a
CNFG
Input Menu.
2) Display advances to
INPT
3) Press , if necessary, until Display advances to
Loop
LOOP
a
Break Time Menu.
Press
4) Display advances to Loop Break Time
Enable or
DSBL
d
ENBL
Disable Submenu and flashes the previous selection.
LOOP BREAK ENABLE/DISABLE SUBMENU:
Press b 5) Scroll through the available selections:
Press
or
.
ENBL DSBL
stored message momentarily and then
6) Display shows
d
STRD
Loop Break Time Value Submenu.
advances to
B.TIM
Loop Break is an additional safety feature intended to monitor the rate of change of the
process value, while approaching the SP1. It is strictly intended as an additional warning
system, therefore its use is entirely optional. An active Loop Break will cause the Process
Value digits to blink in a rotating pattern. If the process value reaches the set point the
blinking will stop and
is completed successfully, otherwise
Break Alarm
B.TIM
BR.AL
warning will flash, and Output 1 will be turned off.
LOOP BREAK TIME VALUE SUBMENU:
st
Press
Press
Press
7) Display flashes 1 digit of previous Loop Value.
d
b
d
&
8) Press and buttons to enter a new Loop Value (0 to 99.59).
c
b
c
9) Display shows
stored message momentarily and then
STRD
advances to
Reading Adjust Submenu.
R.ADJ
Loop Break Time Value allows the user to determine the time interval in MM:SS (from
zero to 99 minutes and 59 seconds) that the Process Value changes at least 10 counts or
if the Input Type is either RTD or Thermocouple, the value changes 4° Fahrenheit or 2°
Celsius. At the specified time interval, if the process value change is less than the stated
rate, flashing
will be displayed, the output 1 will be de-energized, and Alarm 1
B.TIM
energized. Loop break time will be disabled when the Process Value (PV) enters the
control band.
READING ADJUST SUBMENU:
st
Press
10) Display flashes 1 digit of previous Reading Adjust value.
d
b
Press
&
11) Press and buttons to enter a new Reading Adjust value
c
b
c
(-1999 to 9999).
Press
12) Display shows
stored message momentarily and then
STRD
Setpoint Deviation Menu.
d
advances to
SP.DV
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3.2.9 Loop Break Time/Field Calibration (continued)
Reading Offset Adjust allows the user to fine tune a minor error of the transducer,
however some applications may require a large offset adjust.
(Displayed Process Value = Measured Process Value R.ADJ).
Reading Adjust is adjustable between -1999 to 9999. For Temperature Reading only,
not Process
SETPOINT DEVIATION ENABLE/DISABLE SUBMENU:
Press
13) Display advances to Setpoint Deviation
Enable or
DSBL
d
ENBL
Disable Submenu and flashes the previous selection.
14) Scroll through the available selections: or .
DSBL
Press
Press
b
d
ENBL
stored message momentarily and then
15) Display shows
STRD
°
CAL1
advances to
Menu.
Setpoint Deviation Submenu, if “enabled”, allows changes to Setpoint 1 to be made
automatically to Setpoint 2. This mode is very helpful if the Process Value changes often.
In Setpoint Deviation Mode, set SP2 a certain number of degrees or counts away from
SP1 - this relation remains fixed when SP1 is changed. For instance: Setting SP1=200
and SP2=20 and enabling
means that the absolute value of SP2=220. Moving
SP.DV
SP1 to 300, the absolute value of SP2 becomes 320.
THERMOCOUPLE FIELD CALIBRATION SUBMENU:
CAUTION: Do not perform the following steps until you fully
understand this entire section.
RTD and Process are perfectly calibrated. This section is applicable to
Thermocouple (TC) calibration only.
Be sure that the TC being used to calibrate the meter is of the type
selected in the TC submenu. Place the TC in an ice-bath (or other
0°C / 32°F environment). In ambient temperature conditions: connect the
TC to the meter, apply power to the meter.
CAUTION: Do not proceed with TC calibration unless the above
conditions have been in effect for at least one hour.
°
CAL1
Press
Press
Press
Press
7) Display shows
.
a
d
a
d
8) Display shows flashing
.
0000
9) Display will still show flashing
*
*
.
0000
(meaning Calibration is complete)
10) Display shows
OUT1
*
If you accidently engage the flashing
(CAL° alert) simply re-press
0000
the last button you pressed, to avoid unintentionally mis-calibrating your
meter.
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3.2.10 Output 1
Alarm 1 and Output 1 or Analog Output (Retransmission) share the same contacts
on the rear panel connector. If Alarm 1 or Analog Output (Retransmission) is
Enabled, Output 1 is automatically Disabled.
It is required that you put
the controller in the
Standby Mode for any
configuration change other
than Set Points & Alarms.
Figure 3.9 Flow Chart for Output 1
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ENTER OUTPUT 1 MENU:
Press
Press
Press
1) Press , if necessary, until
prompt appears.
a
d
a
a
CNFG
Input Menu.
2) Display advances to
INPT
3) Press , if necessary, until Display advances to
Output
OUT1
a
1 Menu.
4) Display advances to
Press
Self Submenu.
SELF
d
SELF SUBMENU:
The Self Option allows the output of the instrument to be controlled manually
from the front panel.
Press
5) Display flashes the current setting of Self,
Enabled or
ENBL
d
Disabled.
DSBL
6) Press the button to select between Enable and Disable.
Press
Press
b
d
b
7) If Self
Enabled was selected, display shows
ENBL STRD
stored message momentarily and then advances to the next
menu (Output 1 setting is completed).
The output is now under the direct control of the operator and
can be adjusted in the Run Mode (
to ), by pressing
M00.0 M99.9
the and buttons, where M calls for the Manual (Self)
b
c
Control. For example, setting of
M50.0
to 10 Vdc would produce roughly 5 Vdc at the output.
of an Analog Output of 0
8) If Self
Disabled was selected, display shows
DSBL
STRD
oPLO
stored message momentarily and then advances to
Minimum/Percent Low Submenu of Output 1 Menu.
There is a shorter way to Enable or Disable Self Mode. From a Run
Mode, press and then press . Self Mode is Enabled now. Press or
d
a
b
to display MXX.X. To disable Self, press and then press . Display
c
d
a
goes to the Run Mode. Self Mode is Disabled now.
MINIMUM/PERCENT LOW SUBMENU:
Specify in percent, the minimum value (0000) for control output. If the output is
analog proportional (Current or Voltage), then the minimum voltage or current, in
percent, is specified. If the output is time proportional (Relay, SSR or Pulse),
then the minimum duty-cycle, in percent, is specified.
Press
Press
Press
9) Display flashes 1st digit of previous “Percent Low” setting.
d
b
d
&
10) Use and buttons to enter a new value for “Percent Low”.
c
b
c
11) Display shows
stored message momentarily and then
STRD
advances to
Maximum/Percent High Submenu.
oPHI
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MAXIMUM/PERCENT HIGH SUBMENU:
Specify in percent, the maximum value (99) for control output. If the output is
analog proportional (Current or Voltage), then the maximum voltage or current, in
percent, is specified. If the output is time proportional (Relay, SSR, or Pulse),
then the maximum duty-cycle, in percent, is specified.
st
Press
Press
Press
12) Display flashes 1 digit of previous “Percent High” setting.
d
b
d
&
13) Use and buttons to enter a new value for “Percent High”.
c
b
c
14) Display shows
stored message momentarily and then
STRD
Control Type Submenu.
advances to
CTRL
Example: On an Analog Output of 0~10 Vdc, a setting of %LO = 10 and %HI = 90,
cause the minimum on the control output to be 1 V and the maximum on the
control output to be 9 V. The same setting on a time proportional output, will
cause 10% duty cycle for the minimum control output and 90% duty cycle for
maximum control output. To disable %LO/HI, set LO to 00 and HI to 99. If %LO/HI
is at other values than the default (%LO = 00, %HI =99),
is disabled.
SOAK
*CONTROL TYPE OUTPUT:
(Relay, SSR, Pulse or Analog)
Press
15) Display flashes
On/Off or
Proportional, Integral,
PID
d
ON.OF
Derivative.
Press
Press
16) Scroll through the available selections: “ON/OFF” or “PID”.
b
d
17) Display flashes
then advances to
stored message momentarily and
STRD
only, if it was changed, otherwise press
Action Type Submenu.
AçTN
AçTN
a to advance to
The ON/OFF control is a coarse way of controlling the process. The “Dead
Band” improves the cycling associated with the On/Off control. The PID control is
best for processes where the Setpoint is continuously changing and/or a tight
control of the process variable is required. PID control requires tuning and
adjustment of the "Proportional", "Integral or Reset" and "Derivative or Rate"
terms by a trial-and-error method. The instrument provides an "Auto Tuning"
feature making the tuning process automatic, possibly optimum.
* If Analog Output (Current/Voltage) is your control Output 1, this menu i.e.
CTRL
for a
type will not appear, instead
Current will be displayed. Select
4-20
4-20 mA current (2-10 V Voltage) outputs or
ENBL
for a 0-20 mA current (0-10 V
DSBL
Voltage) outputs. If 4-20 mA is enabled, %HI/LO setting will have no effect.
Both Current and Voltage control outputs are active simultaneously.
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ACTION TYPE SUBMENU:
The error that results from the measurement of the Process Variable may be
positive or negative since it may be greater or smaller than the Setpoint. If a
positive error should cause the instrument output to increase (i.e. cooling), it would
be called Direct Acting. If a negative error should cause the output to increase
(i.e. heating), it would be called Reverse Acting.
Press
Press
Press
18) Display flashes
Direct or Reverse.
RVRS
d
b
d
DRçT
19) Scroll through the available selections: “Direct” or “Reverse”.
20) Display shows
stored message momentarily and then
only, if it was changed, otherwise press to
STRD
advances to
AUTo
a
advance to
selected).
Auto PID Submenu (if PID Control Type was
AUTo
If “ON/OFF” was selected in the Control Type, the display skips
to the Dead Band Submenu.
AUTO PID SUBMENU:
Press
21) Display flashes
or .
ENBL DSBL
d
b
Press
22) Scroll through the available selections: “Enable” or
“Disable”.
Press
23) Display shows
stored message momentarily and then
d
STRD
only, if it was changed, otherwise press to
advances to
ANTL
Anti Integral Submenu.
a
advance to
ANTL
If “Enabled”, the controller can determine, by enabling Start PID, the
optimum values for the three adjustments — Proportional, Reset and
Rate corresponding to P, I, and D. These values may be changed once
the auto tuning is complete.
If “Disabled” is selected, the user will manually enter these three
adjustment values. If you want the instrument to do the auto PID and the
P , PI or PID, first select auto disable and enter 0000 for unwanted
parameter. i.e. for PI enter 0000 for the rate.
ANTI INTEGRAL SUBMENU:
Press
Press
Press
24) Display flashes
or .
ENBL DSBL
d
b
d
25) Scroll through the available selections: “Enable” or “Disable”.
26) Display shows stored message momentarily and then
STRD
only, if it was changed, otherwise press to
advances to
STRT
was Enabled).
STRT
a
advance to
to Start Auto Tune PID Submenu (If auto PID
If Auto PID was disabled display advances to
Proportional Band Submenu.
PRoP
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If Anti Integral (Anti Windup) Submenu “Enabled”, this feature allows
the error term outside the proportional band to be calculated and
accumulated for integration. This may be an important feature in
applications where fast response time is desirable.
START AUTO TUNE PID:
Press
Press
Press
27) Display flashes
or .
ENBL DSBL
d
b
d
28) Scroll through the available selections: “Enable” or “Disable”.
29) Display shows stored message momentarily and then
STRD
only, if it was changed, otherwise press to
advances to
CYCL
Cycle Time Submenu.
a
advance to
CYCL
If “Enabled”, the controller is ready to calculate P, PI or PID parameters.
The instrument performs this by activating the output and observing the
delay and rate at which the Process Value changes. The setpoints must
be at least 18°F or 10°C above the (PV) Process Value in order to
perform Auto Tune, otherwise an error message will be displayed.
To start Auto Tune PlD select PID, enable Auto PID and enable Start PID.
Sometimes Auto PID parameter needs fine tuning i.e. for each 5°F over
shoot increase the Proportional Band (PB) by 15% and for each 1°F
fluctuation at the Setpoint (SP) increase reset by 20%.
Once started, display shows A.TUN with letters blinking in the rotating
pattern. When auto tune stops, display will show process value. Do not
perform any operations or settings before first stopping Auto Tune. Any
alarms or other output is disabled during Auto Tune.
If “AUTO PID” was “DISABLED”, the display will show the following
three submenus. This allows the user to manually enter values for
Proportional, Reset and Rate terms corresponding to P, I, and D. It also
can be used for auto PID for disabling unwanted parameter i.e. PI enter
0000 for rate.
PROPORTIONAL BAND SUBMENU:
st
Press
Press
Press
30) Display flashes 1 digit of the previous P
Proportional
PRoP
d
b
d
band value.
&
31) Press and buttons to enter a new “Proportional Band”
c
b
c
value.
32) Display shows
stored message momentarily and then
STRD
only, if it was changed, otherwise press to
advances to
REST
Reset Setup Submenu.
a
advance to
REST
Proportional band is in degrees of temperature or counts of process. Proportional
band is defined, as the change in the instrument input to cause a 100% change in
the controller output.
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RESET SETUP SUBMENU:
st
Press
Press
Press
33) Display flashes 1 digit of the previous I
Reset value.
d
b
d
REST
34) Press and buttons to enter a new “Reset” value.
&
c
b
c
35) Display shows
advances to
stored message momentarily and then
STRD
only, if it was changed, otherwise press to
RATE
Rate Setup Submenu.
a
advance to
RATE
Reset unit is in seconds 0-3999.
RATE SETUP SUBMENU:
st
Press
Press
Press
36) Display flashes 1 digit of previous D
Rate value.
d
b
d
RATE
37) Press and buttons to enter a new
&
value.
c
b
c
RATE
stored message momentarily and then
38) Display shows
STRD
only, if it was changed, otherwise press
advances to the
CYCL
Cycle Time submenu for RTD and
a
to advance to
CYCL
Thermocouple types.
Rate unit is in seconds 000.0-399.9.
If the Output 1 is Analog Option the display skips to Damping
Factor.
CYCLE TIME SUBMENU:
st
Press
Press
Press
39) Display flashes 1 digit of the previous
Cycle Time
CYCL
d
b
d
value.
&
40) Press and buttons to enter a new “Cycle Time” value.
c
b
c
(1 to 199 seconds)
41) Display shows
stored message momentarily and then
STRD
only, if it was changed, otherwise press to
advances to
DPNG
Damping Factor Submenu.
a
advance to
DPNG
A Cycle Time selected between 1 and 199 seconds determines the total On/Off
time of each proportional cycle. For example, a 15 second cycle time means that
every 15 seconds the output will turn on for part or all of the cycle. For Relay
control outputs, do not select a cycle time of less than 7 seconds or the relays’
lifetime will be shortened. For a cycle time of less than 7 seconds select SSR or
DC pulse. Use an external SSR with the DC pulse option for higher currents
(higher than 1 Amp).
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DAMPING FACTOR SUBMENU:
Press
42) Display flashes the previous “Damping Factor” selection.
43) Scroll through the available selections:
d
b
Press
,
0000 0001 0002
,
,
,
,
,
,
.
0003 0004 0005 0006 0007
Press
44) Display flashes
stored message and then advances
STRD
d
to
to
only, if it was changed, otherwise press to advance
OUT2
OUT2
a
Output 2 Menu.
Damping Factor is a measure of speed, overshoot, and undershoot in which the
process variable responds to the output changes of the instrument, which were
used during the Auto Tune. This value is typically set to the ratio of Rate to
Reset. This Default value is (0003). For fast response time, this value should be
decreased while for slow response time it should be increased.
The "DEADBAND" Submenu will only appear if "ON/OFF" was
selected from the "Control Type" Menu.
DEADBAND SUBMENU:
st
Press
45) Display flashes 1 digit of the previous
Deadband
DEAD
d
value.
Press
Press
&
46) Press and buttons to enter a new “Deadband” value.
b
d
c
b
c
47) Display shows
OUT2
OUT2
stored message and then advances to
STRD
only, if it was changed, otherwise press to advance to
a
Output 2 Menu.
Dead Band units are the same as Proportional Band units.
The Dead Band or neutral zone is the number of degrees or counts
(if Input Type is Process) around the Setpoint which the Process Variable
must pass above or below the Setpoint, before the output changes state.
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3.2.11 Output 2
Output 2 and Alarm 2 share the same contacts on the rear panel connector. If
Alarm 2 is Enabled, Output 2 is automatically Disabled.
It is required that you put
the controller in the
Standby Mode for any
configuration change other
than Set Points & Alarms.
Figure 3.10 Flow Chart for Output 2
ENTER OUTPUT 2 MENU:
Press
Press
Press
1) Press , if necessary, until
prompt appears.
a
d
a
a
CNFG
Input Menu.
2) Display advances to
INPT
3) Press , if necessary, until Display advances to
a
OUT2
Output 2 Menu.
4) Display advances to
Press
Control Type Submenu.
CTRL
d
CONTROL TYPE SUBMENU:
Press 3) Display flashes
ON/OFF, or PID.
PID
d
ON.OF
4) Scroll through the available selections: “ON/OFF” or “PID”.
Press b
Press
5) Display shows
stored message momentarily and then
STRD
d
advances to
only, if it was changed, otherwise press to
Action Type Submenu.
AçTN
a
advance to
AçTN
The ON/OFF control is a coarse way of controlling the Process. The “Dead
Band” improves the cycling associated with the ON/Off control. The PID control
is best for processes where the Setpoint is continuously changing and/or tight
control of the Process Variable is required.
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ACTION TYPE SUBMENU:
The error that results from the measurement of the Process Variable may be
positive or negative since it may be greater or smaller than the Setpoint. If a
positive error should cause the instrument output to increase (i.e. cooling), it
would be called Direct Acting. If a negative error should cause the output to
decrease (i.e. heating), it would be called Reverse Acting.
Press
Press
Press
6) Display flashes
Direct or Reverse.
RVRS
d
b
d
DRçT
7) Scroll through the available selections: “Direct” or “Reverse”.
8) Display shows
stored message momentarily and then
STRD
AUTo
advances to
only, if it was changed, otherwise press to
a
advance to
selected).
Auto PID Submenu (If PID Control type was
AUTo
If ON/OFF was selected in the Control Type, the display skips to
the Dead Band Submenu.
AUTO PID SUBMENU:
Press
Press
9) Display flashes
Enable or
Disable.
DSBL
d
b
ENBL
10) Scroll through the available selections: “Enable” or “Disable”.
If "Enabled", the PID parameter of Output 1 will be copied to
Output 2.
Press
11) Display shows
stored message momentarily and then
STRD
d
advances to the next submenu only, if it was changed, otherwise
press to advance to the next submenu.
a
If AUTO PID was ENABLED", the display skips to the
CYCL
CYCLE TIME submenu. If "AUTO PID" was "DISABLED", the
display will show PROPORTIONAL BAND Submenu
PRoP
allowing the user to manually enter the Proportional Band value.
The Reset and Rate value are the same as Output 1.
PROPORTIONAL BAND SUBMENU:
st
Press
Press
Press
12) Display flashes 1 digit of the previous Proportional Band
d
b
d
value.
&
13) Press and buttons to enter a new Proportional Band
c
b
c
value.
14) Display shows
CYCL
advance to the
stored message momentarily and then
STRD
only, if it was changed, otherwise press to
advances to
a
Cycle Time Submenu.
CYCL
Refer to “Proportional Band” Submenu of “Output 1” Menu.
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CYCLE TIME SUBMENU:
st
Press
15) Display flashes 1 digit of the previous “Cycle Time” value.
d
b
Press
&
16) Press and buttons to enter a new “Cycle Time” value
c
b
c
(1 to 199 seconds).
17) Display shows
advances to
Press
stored message momentarily and then
d
STRD
only, if it was changed, otherwise press to
RAMP
Ramp Value Submenu.
a
advance to
RAMP
A cycle time selected between 1 to 199 seconds indicates the total On/Off time
of each proportional cycle. For example, a 15 second cycle time means that
every 15 seconds the output will turn on for part or all of the cycle. For Relays’
Control Outputs, do not select a cycle time of less than 7 seconds or the relays’
lifetime will be shortened. For a cycle time of less than 7 seconds select SSR or
DC pulse. Use an external SSR with the DC pulse option for higher current
(higher than 1 Amp).
The DEADBAND Submenu will only appear if the ON/OFF was
selected from the "Control Type" Submenu.
DEADBAND SUBMENU:
Press
Press
Press
18) Display flashes 1st digit of the previous “Dead Band” value.
d
b
d
&
19) Press and buttons to enter a new “Dead Band” value.
c
b
c
20) Display shows
stored message momentarily and then
STRD
only, if it was changed, otherwise press to
advances to
RAMP
Ramp Value Menu.
a
advance to
RAMP
Dead Band units are the same as Proportional Band units.
The Dead Band or neutral zone is the number of degrees or counts
(if Input Type is Process) around the Setpoint which the Process Variable
must pass above or below the Setpoint, before the output changes state.
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3.2.12 Ramp & Soak
Alarm must be DISABLED if Ramp is ENABLED.
It is required that you put the controller in the Standby Mode for any
configuration change other than Set Points & Alarms.
Figure 3.11 Flow Chart for Ramp and Soak
ENTER RAMP AND SOAK MENU:
Press
Press
Press
1) Press , if necessary, until
prompt appears.
a
d
a
a
CNFG
Input Menu.
2) Display advances to
INPT
3) Press , if necessary, until Display advances to
Ramp
RAMP
a
and
Soak Menu.
SOAK
RAMP ENABLE/DISABLE SUBMENU:
Press
4) Display advances to “Ramp Enable/Disable” Submenu and
flashes or
d
.
ENBL DSBL
5) Scroll through the available selections: “Enable” or “Disable”.
6) Display shows stored message momentarily and then
Press
Press
b
d
STRD
Soak Enable/Disable Menu.
advances to
SOAK
If
Disable was selected, display skips to the next menu
RAMP
item (ID Code).
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SOAK ENABLE/DISABLE SUBMENU:
Press
Press
Press
7) Display flashes
or .
ENBL DSBL
d
b
d
8) Scroll through the available selections: “Enable” or “Disable”.
9) Display shows stored message momentarily and then
STRD
advances to “Ramp Value” Submenu.
Ramp & Soak provides users with the flexibility to slowly bring the Process
Variable (PV) to the desired setpoint. Ramp & Soak values are specified in
HH.MM format. The Ramp value indicates the time specified to bring the
process variable to Setpoint 1 (SP1). Once the set point is reached, the PID
takes over and the Process Variable will be controlled at the desired set point
indefinitely. If Soak is enabled, PID will control the Process Variable at the
specified Setpoint for the duration of Soak time and then will turn off Output 1.
To start a new Ramp/Soak cycle, reset the instrument by pressing and then
a
c
button.
An active Ramp/Soak will change SP1 one degree above the PV and will cause
the most significant digit to blink. The SP1 will be incremented by one degree
until it reaches the original SP1. The minimum Ramp time must be at least twice
the time that it will take the PV to reach the Setpoint Value (SV) with OUT 1 fully
ON.
RAMP VALUE SUBMENU:
st
Press
Press
Press
10) Display flashes 1 digit of previous stored “Ramp Value”.
d
b
d
&
11) Press and buttons to enter a new “Ramp Value”.
STRD
advances to “Soak Value” Submenu.
c
b
c
12) Display shows
stored message momentarily and then
SOAK VALUE SUBMENU:
Press
Press
Press
13) Display flashes 1st digit of previous stored “Soak Value”.
14) Press and buttons to enter a new “Soak Value”.
d
b
d
&
c
b
c
STRD
15) Display shows
stored message and advances to the
ID Code Menu.
ID
The Ramp and Soak time is 00:00 to 99:59 i.e. HH.MM. (from zero to 99 hours
and 59 minutes) During Ramp & Soak do not perform any operations or settings
before first stopping it. Any alarms or other output are disabled during this time.
To stop Ramp & Soak first put instrument into Standby Mode, then go to Ramp &
Soak Menu and disable it.
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3.2.13 ID CODE
Figure 3.12 Flow Chart for ID Code
ENTER ID CODE MENU:
Press 1) Press , if necessary, until
prompt appears.
a
a
CNFG
Input Menu.
Press d
Press
2) Display advances to
INPT
3) Press , if necessary, until Display advances to ID Code
ID
a
a
Menu.
ENTERING OR CHANGING YOUR (NON-DEFAULT) ID CODE:
st
Press d
4) Display advances to
with 1 under score flashing.
____
Press
&
5) Press and to enter your 4-digit “ID Code” number.
c
b
b
c
Press d
6) Display advances to
Change ID Code Submenu.
CH.ID
If entered “ID Code” is incorrect display shows
Error
ERRo
message momentarily and then skips to the Run Mode.
Press
7) Display flashes the first digit of previous entered “ID Code”
number.
d
Press
Press
&
8) Press and buttons to enter your new “ID Code” number.
b
d
c
b
c
9) Display shows
stored message momentarily and then
STRD
advances to the
Full Security Submenu.
FULL
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ENTERING OR CHANGING YOUR (DEFAULT) ID CODE:
Enter menu (Repeat steps from 1 to 3).
ID
Press
Press
10) Display advances to
11) Display shows
0000
Change ID Code Submenu.
d
d
CH.ID
message with flashing 1 digit.
st
If you want to change your default “ID Code” you can do it now,
otherwise press and menu will skip to
Full Security
FULL
a
Submenu.
Press
Press
&
12) Press and buttons to enter your new “ID Code” number.
b
d
c
b
c
13) Display shows
stored message momentarily and then
STRD
Full Security Submenu.
advances to the
FULL
FULL SECURITY LEVEL SUBMENU:
Press
Press
Press
14) Display flashes
Enable or Disable.
DSBL
d
b
d
ENBL
15) Scroll through the available selections: “Enable” or “Disable”.
16) Display shows stored message momentarily and then
STRD
Setpoint/ID Submenu.
advances to
SP.ID
If "Full" Security Level is "Enabled" and the user attempts to
enter the Main Menu, they will be prompted for an ID Code. The
ID Code should be correct to enter the instrument Menu item.
SETPOINT/ID SECURITY LEVEL SUBMENU:
This Security Level can be functional only if
Level is Disabled.
Security
FULL
Press
Press
Press
17) Display flashes
Enable or
Disable.
DSBL
d
b
d
ENBL
18) Scroll through the available selections: “Enable” or “Disable”.
19) Display shows
stored message momentarily and then
STRD
Communication Submenu.
advances to
COMM
If "Setpoint/ID" Security Level is "Enabled" and the user
attempts to advance into the Configuration Menu, he will
CNFG
be prompted for ID Code number. The ID Code should be
correct to proceed into the Configuration Menu, otherwise
display will show an Error and skip to the Run Mode.
If “Full” and “Setpoint/ID” Security Levels are "Disabled", the
ID code will be “Disabled” and user will not be asked for ID
Code to enter the Menu items (“ID” Submenu will not show upin
“ID/Setpoint” Menu).
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3.2.14 COMMUNICATION OPTION
Purchasing the controller with Serial Communications permits an instrument to be configured
or monitored from an IBM PC compatible computer using software available from the
website or on the CD-ROM enclosed with your shipment. For complete instructions on
the use of the Serial Comm.Option, refer to the Serial Comm. Reference Manual.
*
Valid only for -C24
and -EI options.
** Valid only for -C24
and -C4EI options.
External RS-232 connections are not available with -EI or -C4EI options.
Figure 3.13 Flow Chart for Communication Option
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ENTER COMMUNICATION OPTION MENU:
Press
Press
Press
1) Press , if necessary, until
prompt appears.
a
d
a
a
CNFG
Input Menu.
2) Display advances to
INPT
3) Press , if necessary, until Display advances to
a
COMM
Communication Options Menu.
Press
4) Display advances to
Submenu.
Communication Parameters
C.PAR
d
If Communication Option is not installed, the display shows
and skips to the Color Display Menu.
NONE
COMMUNICATION PARAMETERS SUBMENU:
Allows the user to adjust Serial Communications Settings of the instrument.
When connecting an instrument to a computer or other device, the
Communications Parameters must match. Generally the default settings
(as shown in Section 5) should be utilized.
Press
5) Display advances to
Baud Submenu.
BAUD
d
BAUD SUBMENU:
Press
6) Display flashes previous selection for
value.
BAUD
d
b
Press
7) Scroll through the available selections:
,
300_ 600_ 1200
,
,
,
,
,
.
2400 4800 9600 19.2K
8) Display shows
Press
stored message momentarily and then
d
STRD
only, if it was changed, otherwise press to
advances to
PRTY
Parity Submenu.
a
advance to
PRTY
PARITY SUBMENU:
Press
Press
Press
9) Display flashes previous selection for “Parity”.
d
b
d
10) Scroll through the available selections: NO, ODD, EVEN.
11) Display shows
stored message momentarily and then
STRD
only, if it was changed, otherwise press to
advances to
DATA
Data Bit Submenu.
a
advance to
DATA
DATA BIT SUBMENU:
Press
Press
Press
12) Display flashes previous selection for “Data Bit”.
d
b
d
13) Scroll through the available selections: 7-BIT, 8-BIT.
14) Display shows
STOP
STOP
stored message and then advances to
STRD
only, if it was changed, otherwise press to advance to
a
Stop Bit Submenu.
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STOP BIT SUBMENU:
Press
Press
Press
15) Display flashes previous selection for “Stop Bit”.
16) Scroll through the available selections:
d
b
d
,
.
1-BIT 2-BIT
17) Display shows
stored message momentarily and then
STRD
only, if it was changed, otherwise press to
advances to
BUS.F
Bus Format Submenu.
a
advance to
BUS.F
BUS FORMAT SUBMENU:
Determines Communications Standards and Command/Data Formats for
transferring information into and out of the controller via the Serial
Communications Bus. Bus Format submenus essentially determine how and
when data can be accessed via the Serial Communications of the device.
Press
18) Display advances to
Modbus Submenu.
M.BUS
d
MODBUS PROTOCOL SUBMENU:
Press
Press
Press
19) Display flashes previous selection for
.
d
b
d
M.BUS
20) Scroll through the available selections: NO, YES.
21) Display shows stored message momentarily and then
STRD
only, if it was changed, otherwise press to
advances to
_LF_
Line Feed submenu.
a
advance to
_LF_
To select iSeries Protocol, set Modbus submenu to “No”.
To select Modbus Protocol, set Modbus submenu to “Yes”.
If Modbus Protocol was selected, the following Communications
Parameters must be set as: No Parity, 8-bit Data Bit, 1-Stop Bit. Do not
attempt to change these parameters.
LINE FEED SUBMENU:
Determines if data sent from the instrument will have a Line Feed appended to
the end - useful for viewing or logging results on separate lines when displayed
on communications software at a computer.
Press
Press
Press
22) Display flashes previous selection for “Line Feed”.
d
b
d
23) Scroll through the available selections: NO, YES.
24) Display shows
stored message momentarily and then
STRD
only, if it was changed, otherwise press to
advances to
ECHO
Echo Submenu.
a
advance to
ECHO
ECHO SUBMENU:
When valid commands are sent to the instrument, this determines whether the
command will be echoed to the Serial Bus. Use of echo is recommended in most
situations, especially to help verify that data was received and recognized by the
controller.
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Press
Press
Press
25) Display flashes previous selection for “Echo”.
d
b
d
26) Scroll through the available selections: NO, YES.
27) Display flashes
stored message momentarily and then
STRD
only if it was changed, otherwise press to
advances to
STND
Communication Standard Submenu.
a
advance to
STND
COMMUNICATION INTERFACE STANDARD SUBMENU:
Determines whether device should be connected to an RS-232C serial port
(as is commonly used on IBM PC-compatible computers) or via an RS-485 bus
connected through appropriate RS-232/485 converter. When used in RS-485
Mode, the device must be accessed with an appropriate Address Value as
selected in the Address Submenu described later.
Press
Press
Press
28) Display flashes previous selection for “Standard”.
d
b
d
29) Scroll through the available selections: 232C, 485.
30) Display shows
stored message momentarily and then
STRD
advances to
only, if it was changed, otherwise press to
MoDE
MoDE
a
advance to
Data Flow Mode Submenu.
DATA FLOW MODE SUBMENU:
Determines whether the instrument will wait for commands and data requests
from the Serial Bus or whether the instrument will send data automatically and
continuously to the Serial Bus. Devices configured for the RS-485
Communications Standard operate properly only under Command Mode.
Press
31) Display flashes previous selection for “Mode”.
32) Scroll through the available selections:
d
b
Press
“Command”,
_
CMD
“Continuous”.
CoNT
33) Display shows
Press
stored message momentarily and then
STRD
only, if it was changed, otherwise press to
d
advances to
SEPR
Data Separation Submenu.
a
advance to
SEPR
DATA SEPARATION CHARACTER SUBMENU:
Determines whether data sent from the device in Continuous Data Flow Mode
will be separated by spaces or by Carriage Returns.
Press
34) Display flashes previous selection for “Separation” Submenu.
35) Scroll through the available selections: “Space” or
d
b
Press
SPCE
“Carriage Return”.
_çR_
36) Display shows
Press
stored message momentarily and then
STRD
d
advances to
only, if it was changed, otherwise press to
DAT.F
a
advance to
Data Format Submenu.
DAT.F
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DATA FORMAT SUBMENU:
Preformatted data can be sent automatically or upon request from the controller.
Use the Data Format Submenus to determine what data will be sent in this
preformatted data string. Refer to the iSeries Communications Manual for more
information about the data format. At least one of the following suboptions must
be enabled and hence output data to the Serial Bus.
This menu is applicable for Continuous Mode of RS-232 communication.
Press
37) Display advances to
Alarm Status Submenu.
STAT
d
ALARM STATUS SUBMENU:
Includes Alarm Status bytes in the data string.
Press
Press
Press
38) Display flashes previous selection for “Status” (alarm status).
d
b
d
39) Scroll through the available selections: NO, YES.
40) Display shows
stored message momentarily and then
STRD
only, if it was changed, otherwise press to
advances to
advance to
RDNG
Reading Submenu.
a
RDNG
MAIN READING SUBMENU:
Includes Main Reading in the data string.
Press
Press
Press
41) Display flashes previous selection for “Reading”.
42) Scroll through the available selections: NO, YES.
43) Display shows stored message momentarily and then
d
b
d
STRD
only, if it was changed, otherwise press to
advances to
PEAK
Peak Submenu.
a
advance to
PEAK
PEAK VALUE SUBMENU:
Includes Peak Value in the data string.
Press
Press
Press
44) Display flashes previous selection for
Submenu.
d
b
d
PEAK
45) Scroll through the available selections: NO, YES.
46) Display shows stored message momentarily and then
STRD
only, it was changed, otherwise press to
advances to
advance to
VALY
Valley Submenu.
a
VALY
VALLEY VALUE SUBMENU:
Includes Valley Value in the data string.
Press
Press
Press
47) Display flashes previous selection for “Valley”.
48) Scroll through the available selections: NO, YES.
49) Display shows stored message momentarily and then
d
b
d
STRD
advances to
only, if it was changed, otherwise press to
UNIT
a
advance to
Temperature Unit Submenu.
UNIT
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TEMPERATURE UNIT SUBMENU:
Includes a byte in the data string to indicate whether reading is in Celsius or
Fahrenheit.
Press
Press
Press
50) Display flashes previous selection for
.
d
b
d
UNIT
51) Scroll through the available selections: NO, YES.
52) Display shows stored message momentarily and then
STRD
only, if it was changed, otherwise press to
advances to
ADDR
Address Setup Submenu.
a
advance to
ADDR
ADDRESS SETUP SUBMENU:
This menu is applicable to the RS-485 Option only.
Press
53) Display advances to “Address Value” (0000 to 0199) Submenu.
d
ADDRESS VALUE SUBMENU:
st
Press
Press
Press
54) Display flashes 1 digit of previously stored Address Value.
d
b
d
&
55) Press and to enter new “Address Value”.
c
b
c
56) Display shows
advances to
stored message momentarily and then
STRD
only, if it was changed, otherwise press to
TR.TM
Transmit Time Interval Submenu.
a
advance to
TR.TM
TRANSMIT TIME INTERVAL SUBMENU:
This menu is applicable if “Continuous” Mode was selected in the “Data
Flow Mode” Submenu and the device is configured as an RS-232C
Standard device. Also, one or more options under the Data Format
Submenu must be enabled.
Press
57) Display advances to “Transmit Time Value” Submenu.
d
TRANSMIT TIME INTERVAL VALUE SUBMENU:
Determines the interval at which data will be emitted to the RS-232 Serial Bus
when the instrument is in Continuous Data Flow Mode.
st
Press
Press
Press
58) Display flashes 1 digit of previous “Transmit Time Value” in
seconds.
d
b
d
&
59) Press and to enter new “Transmit Time Value”, e.g.
0030 will send the data every 30 seconds in Continuous Mode.
c
b
c
60) Display shows
advances to
stored message momentarily and then
STRD
only, if it was changed, otherwise press to
COLR
Color Display Selection Menu.
a
advance to
COLR
For more details, refer to the Communication Manual available at
the website listed in the cover page of this manual.
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3.2.15 DISPLAY COLOR SELECTION
This submenu allows the user to select the color of the display.
Figure 3.14 Flow Chart for Display Color Selection
ENTER DISPLAY COLOR SELECTION MENU:
Press
Press
Press
1) Press , if necessary, until
prompt appears.
a
d
a
a
CNFG
Input Menu.
2) Display advances to
INPT
3) Press , if necessary, until Display advances to
a
COLR
Display Color Selection Menu.
Press
4) Display advances to
Normal Color Submenu.
N.CLR
d
NORMAL COLOR DISPLAY SUBMENU:
Press
Press
Press
5) Display flashes the previous selection for “Normal Color”.
6) Scroll through the available selections: or
d
b
d
,
.
GRN RED AMBR
stored message momentarily and then
7) Display shows
STRD
only, if it was changed, otherwise press to
advances to
advance to
1.CLR
Alarm 1 Display Color Submenu.
a
1.CLR
The menu below allows the user to change the color of display when alarm is
triggered.
ALARM 1 DISPLAY COLOR SUBMENU:
Press
8) Display flashes previous selection for “Alarm 1 Color
d
Display”.
Press
Press
9) Scroll through the available selections:
,
or .
b
d
GRN RED AMBR
stored message momentarily and then
STRD
10) Display shows
advances to
only, if it was changed, otherwise press to
2.CLR
a
advance to
Alarm 2 Display Color Submenu.
2.CLR
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ALARM 2 DISPLAY COLOR SUBMENU:
Press
Press
Press
11) Display flashes previous selection for “Alarm 2 Color Display”.
12) Scroll through the available selections: or
d
b
d
,
.
GRN RED AMBR
stored message momentarily and then
13) Display shows
STRD
momentarily shows the software version number, followed by
Reset, and then proceeds to the Run Mode.
RST
IN ORDER TO DISPLAY ONE COLOR, SET THE SAME DISPLAY
COLOR ON ALL THREE SUBMENUS ABOVE.
If user wants the Display to change color every time when both Alarm 1
and Alarm 2 are triggered, the Alarm values should be set in such a way
that Alarm 1 value is always on the top of Alarm 2 value, otherwise value
of Alarm 1 will overwrite value of Alarm 2 and Display Color would not
change when Alarm 2 is triggered.
Example 1:
Output 1 & Output 2 = SSR
Alarm Setup: Absolute, Above, Alarm 2 HI Value “ALR.H” = 200, Alarm 1
HI Value “ALR.H” = 400
"Color Display" Setup: Normal Color “N.CLR” = Green, Alarm 1 Color
“1.CLR” = Amber, Alarm 2 Color “2.CLR” = Red
Display Colors change sequences:
GREEN RED
AMBER
-- ------------------------------ ----------------------------- ------------------------------
• ➤
•
•
➤
0
AL2.H = 200
AL1.H = 400
Example 2:
Output 1 & Output 2 = Pulse
Alarm Setup: Absolute, Below, Alarm 2 Low Value “ALR.L” = 300, Alarm 1
Low Value “ALR.L” = 100
Color Display Setup: "N.CLR" = Green, "1.CLR" = Amber, "2.CLR" = Red
Display Colors change sequences:
AMBER RED
GREEN
➤
➤
-------------- ---------------------------------- ------------------------------------------- --
•
0
•
•
•
AL1.L = 100
AL2.L = 300
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Example 3:
Output 1 = Analog Output (Alarm 1 disabled), Setpoint 1 = 300,
Output 2 = Relay, Setpoint 2 = 200
Alarm 1 & 2 Setup: Deviation, Band, “ALR.H” = 10
Color Display Setup: “N.CLR” = Green, “1.CLR” = Amber, “2.CLR” = Red
Display Colors change sequences:
RED
--------------- ------ ------ -------------------------------- ------ ------- ----------------
➤
RED
RED
GREEN
RED
•➤
•
•
•
•
•
•
0
190 200 210
290 300 310
Alarm 1 is designed to monitor the Process Value around the Setpoint 1.
Alarm 2 is designed to monitor the Process Value around the Setpoint 2.
If Analog Output Option board is installed (Alarm 1 is disabled), only
Alarm 2 is active and only two colors are available.
Example 4:
Output 1 = Relay, Setpoint 1 = 200
Output 2 = Relay, Setpoint 2 = 200
Alarm 1 Setup: Deviation, Band, “ALR.H” = 20
Alarm 2 Setup: Deviation, Hi/Low, “ALR.H” = 10, “ALR.L” = 5
Color Display Setup: “N.CLR” = Green, “1.CLR” = Amber, “2.CLR” = Red
Display colors change sequences:
AMBER RED GREEN GREEN
RED
AMBER
-- --------------- ---------------- ------------- -------------- ------------- ---------------------
• ➤
•
•
•
•
•
➤
0
180
195
200
210
220
Reset: The instrument automatically resets after the last menu of
the Configuration Mode has been entered. After the instrument
resets, it advances to the Run Mode.
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PART 4
INPUT
Input Types
SPECIFICATIONS
Thermocouple, RTD, Analog Voltage,
Analog Current
Accuracy
0.5°C temp; 0.03% reading process
Thermocouple Type (ITS 90)
J, K, T, E, R, S, B, C, N, L
Resolution
1°/0.1°; 10 µV process
Thermocouple Lead Resistance
100 ohm max
Temperature Stability
1) RTD: 0.04°C/°C
2) TC @ 25°C (77°F): 0.05°C/°C
- Cold Junction Compensation
3) Process: 50 ppm/°C
RTD Input (ITS 68)
100/500/1000 Ω Pt sensor, 2-, 3- or
4-wire; 0.00385 or 0.00392 curve
NMRR
60 dB
Voltage Input
0 to 100 mV, 0 to 1 V, 0 to 10 Vdc
CMRR
Input Impedance
10 MΩ for 100 mV
1 MΩ for 1 or 10 Vdc
120 dB
A/D Conversion
Dual slope
Current Input
0 to 20 mA (5 ohm load)
Reading Rate
3 samples per second
Configuration
Single-ended
Digital Filter
Programmable
Polarity
Unipolar
Display
4-digit, 9-segment LED
Step Response
0.7 sec for 99.9%
•
10.2 mm (0.40"): i32, i16, i16D (Dual
Display), i8DV (Dual Vertical)
• 21 mm (0.83"): i8
• 10.2 mm (0.40”) and 21 mm (0.83”):
i8DH (Dual Horizontal)
Decimal Selection
None, 0.1 for temperature
None, 0.1, 0.01 or 0.001 for process
red, green and amber programmable
colors for process variable, set point
and temperature units
Setpoint Adjustment
-1999 to +9999 counts
Warm up to Rated Accuracy
30 min.
Span Adjustment
0.001 to 9999 counts
Offset Adjustment
-1999 to +9999
CONTROL
Action
Reverse (heat) or direct (cool)
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Modes
DC Pulse
Time and Amplitude Proportional
Control Modes; selectable Manual or
Auto PID, Proportional, Proportional
with Integral, Proportional with
Derivative with Anti-reset Windup and
ON/OFF
Non-Isolated; 10 Vdc @ 20 mA
Analog Output (Output 1 only)
Non-Isolated, Proportional 0 to 10 Vdc
or 0 to 20 mA; 500 Ω max
NETWORK AND COMMUNICATIONS
(Optional -C24, -C4EI, -EI)
Ethernet: Standards Compliance IEEE
802.3 10Base-T
Supported Protocols: TCP/IP, ARP,
HTTPGET
Rate
0 to 399.9 seconds
Reset
0 to 3999 seconds
Cycle Time
RS-232/RS-422/RS-485/MODBUS:
Selectable from menu; both ASCII and
modbus protocol selectable from menu.
Programmable 300 to 19.2 K baud;
complete programmable setup
capability; program to transmit current
display, alarm status, min/max, actual
measured input value and status.
1 to 199 seconds; set to 0 for ON/OFF
operation
Gain
0.5 to 100% of span; Setpoints 1 or 2
Damping
0000 to 0008
RS-485
Addressable from 0 to 199
Soak
00.00 to 99.59 (HH:MM), or OFF
Connection
Screw terminals
Ramp to Setpoint
00.00 to 99.59 (HH:MM), or OFF
ALARM 1 & 2 (programmable):
Type
Same as Output 1 & 2
Auto Tune
Operator initiated from front panel
CONTROL OUTPUT 1 & 2
Relay
250 Vac or 30 Vdc @ 3 A
(Resistive Load); configurable for
on/off, PID and Ramp and Soak
Operation
High/low, above/below, band,
latch/unlatch, normally open/normally
closed and process/deviation; front
panel configurations
Output 1: SPDT type, can be
ANALOG OUTPUT (programmable)
Non-Isolated, Retransmission 0 to 10
Vdc or 0 to 20 mA, 500 Ω max (Output
1 only). Accuracy is + 1% of FS when
following conditions are satisfied.
1) Input is not scaled below 1% of
Input FS.
configured as Alarm 1 output
Output 2: SPDT type, can be
configured as Alarm 2 output
SSR
20-265 Vac @ 0.05-0.5 A
(Resistive Load); continuous
2) Analog Output is not scaled below
3% of Output FS.
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EXCITATION
Environmental Conditions
(optional in place of Communication) • All models: 0 to 55°C (32 to 131°F),
24 Vdc @ 25 mA
Not available for Low Power Option
90% RH non-condensing
• i8DV, i8DH, i8C, i16D: 0 to 50°C
(32 to122°F) for UL only.
INSULATION
Power to Input/Output
2300 Vac per 1 min. test
90% RH non-condensing
Protection
1500 Vac per 1 min. test
(Low Voltage/Power Option)
Power to Relays/SSR Outputs
2300 Vac per 1 min. test
NEMA-4x/Type 4x/IP65 front bezel:
i32, i16D, i8C
NEMA-1/Type 1 front bezel: i8, i8DH,
i8DV
Relays/SSR to Relay/SSR Outputs
2300 Vac per 1 min. test
Dimensions
i/8 Series:
48 H x 96 W x 127 mm D
(1.89 x 3.78 x 5")
RS-232/485 to Inputs/Outputs
500 Vac per 1 min. test
Approvals
FM, UL, C-UL, and
see CE Approval Section
i/8 Compact Series:
48 H x 96 W x 74 mm D
(1.89 x 3.78 x 2.91")
GENERAL
i/16 Series:
Line Voltage/Power
48 H x 48 W x 127 mm D
(1.89 x 1.89 x 5")
90-240 Vac +/-10%, 50-400 Hz*
110-375 Vdc, equivalent voltage
4 W, power for i8, i8C, i16, i32 Models
5 W, power for i8DV, i8DH, i16D Models
* No CE compliance above 60 Hz
i/32 Series:
25.4 H x 48 W x 127 mm D
(1.0 x 1.89 x 5")
Low Voltage/Power Option
12-36 Vdc, 3 W, power for i8, i16, i32
20-36 Vdc, 4 W, power for i8DV, i8DH, i16D
External power source must meet
Safety Agency Approvals.
* Units can be powered safely with 24 Vac
power but, no Certification for CE/UL are
claimed.
Panel Cutout
i/8 Series: 45 H x 92 mm W
(1.772" x 3.622 "), 1/8 DIN
i/16 Series:
45 mm (1.772") square, 1/16 DIN
i/32 Series:
22.5 H x 45 mm W
(0.886" x 1.772"), 1/32 DIN
External Fuse Required
Time-Delay, UL 248-14 listed:
100 mA/250 V
Weight
400 mA/250 V (Low Voltage/Power Option)
Time-Lag, IEC 127-3 recognized:
100 mA/250 V
i/8 Series: 295 g (0.65 lb)
i/16 Series: 159 g (0.35 lb)
i/32 Series: 127 g (0.28 lb)
400 mA/250 V (Low Voltage/Power Option)
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Table 4.1 Input Properties
TC
Input Type
Iron-Constantan
Range
-210 to 760°C
Accuracy*
0.4°C
0.7°F
J
-346 to 1400°F
-270 to -160°C
-160 to 1372°C
-454 to -256°F
-256 to 2502°F
-270 to -190°C
-190 to 400°C
-454 to -310°F
-310 to 752°F
-270 to -220°C
-220 to 1000°C
-454 to -364°F
-364 to 1832°F
-50 to 40°C
40 to 1788°C
-58 to 104°F
104 to 3250°F
-50 to 100°C
100 to 1768°C
-58 to 212°F
1.0°C
0.4°C
1.8°F
CHROMEGA®-
ALOMEGA®
K
0.7°F
1.0°C
0.4°C
1.8°F
Copper-Constantan
T
0.7°F
1.0°C
0.4°C
1.8°F
CHROMEGA-
Constantan
E
R
S
0.7°F
1.0°C
0.5°C
1.8°F
Pt/13%Rh-Pt
0.9°F
1.0°C
0.5°C
1.8°F
Pt/10%Rh-Pt
212 to 3214°F
200 to 640°C
640 to 1820°C
212 to 1184°F
1184 to 3308°F
0 to 2354°C
0.9°F
1.0°C
0.5°C
1.8°F
0.9°F
0.4°C
0.7°F
1.0°C
0.4°C
1.8°F
0.7°F
0.4°C
0.7°F
30%Rh-Pt/
6%Rh-Pt
B
C
N
5%Re-W/
26%Re-W
32 to 4253°F
-250 to -100°C
-100 to 1300°C
-418 to -148°F
-148 to 2372°F
-200 to 900°C
-328 to 1652°F
200 to 900°C
-328 to 1652°F
-200 to 850°C
-328 to 1562°F
0 to 100 mV, 0 to 1 V,
0 to 10 Vdc
Nicrosil-Nisil
J
DIN
L
RTD
RTD
PROCESS
Pt, 0.00385, 100 Ω,
500 Ω, 1000 Ω
Pt, 0.00392, 100 Ω,
500 Ω, 1000 Ω
Voltage
0.4°C
0.7°F
0.4°C
0.7°F
0.03% rdg
0.03% rdg
0.03% rdg
PROCESS Current
0 to 20 mA, 4 to 20 mA
61
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PART 5
FACTORY PRESET VALUES
Table 5.1 Factory preset value
MENU ITEMS
FACTORY PRESET VALUES
NOTES
Set Point 1 (SP1)
Set Point 2 (SP2)
000.0
000.0
Input:
Input Type (INPT)
TC, type K
Reading Configuration (RDG):
Decimal Point (DEC.P)
Temperature unit (TEMP)
Filter value (FLTR)
FFF.F
°F
0004
:
Alarm 1 & 2
Alarm 1 (ALR1), Alarm 2 (ALR2)
Absolute/Deviation (ABSO/DEV)
Latch/Unlatch (LTCH/UNLT)
Contact Closure (CT.CL)
Active (ACTV)
Disable (DSBL)
Absolute (ABSO)
Unlatch (UNLT)
Normally Open (N.O.)
Above (ABOV)
Disable (DSBL)
-100.0
Alarm At Power On (A.P.ON)
Alarm Low (ALR.L)
Alarm 1 only
Alarm High (ALR.H)
400.0
LOOP:
Loop Break Time (LOOP)
Loop Value (B.TIM)
Disable (DSBL)
00:59
Reading Adjust Value (R.ADJ)
Setpoint Deviation (SP.dV)
000.0
Disable (DSBL)
ANALOG OUTPUT (Retransmission):
Analog Output (ANLG)
Current/Voltage (CURR/VOLT)
Scale and Offset
Enabled (ENBL)
Voltage (VOLT)
Reading: 0 - 999.9 cts, Output: 0 - 10 V
OUTPUT 1 & 2:
Self (SELF)
Disabled (DSBL)
0000
0099
On/Off
Reverse (RVRS)
020.0
Disable (DSBL)
Disable (DSBL)
020.0
0180
0000
Output 1 only
Output 1 only
Output 1 only
% Low Value (%LO)
% High Value (%HI)
Control Type (CTRL)
Action Type (ACTN)
Dead Band (DEAD)
PID Auto (AUTO)
Anti Integral (ANTI)
Proportion Value (PROP)
Reset Value (REST)
Rate Value (RATE)
Cycle Value (CYCL)
Damping Factor (DPNG)
Output 1 only
Output 1 only
Output 1 only
0007
0003
62
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MENU ITEMS
Ramp & Soak (RAMP)
Ramp (RAMP)
Soak (SOAK)
Ramp Value (RAMP)
Soak Value (SOAK)
FACTORY PRESET VALUES
NOTES
:
Disable (DSBL)
Disable (DSBL)
00:00
00:00
:
ID
ID Value
0000
Full ID (FULL)
Set Point ID (ID.SP)
Disable (DSBL)
Disable (DSBL)
Communication Parameters:
Baud Rate (BAUD)
Parity (PRTY)
9600
Odd
Data bit (DATA)
7 bit
Stop Bit
1 bit
Modbus Protocol (M.BUS)
Line Feed (LF)
No
No
Echo (ECHO)
Yes
Standard Interface (STND)
Command Mode (MODE)
Separation (SEPR)
Alarm Status (STAT)
Reading (RDNG)
RS-232 (232C)
Command (CMD)
Space (SPCE)
No
Yes
No
Peak
Valley (VALY)
No
Units (UNIT)
No
Multipoint Address (ADDR)
Transmit Time (TR.TM)
Display Color (COLR):
Normal Color (N.CLR)
Alarm 1 Color (1.CLR)
Alarm 2 Color (2.CLR)
0001
0016
Green (GRN)
Red (RED)
Amber (AMBR)
63
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PART 6
CE APPROVALS INFORMATION
This product conforms to the EMC directive 89/336/EEC amended by
93/68/EEC, and with the European Low Voltage Directive 72/23/EEC.
Electrical Safety EN61010-1:2001
Safety requirements for electrical equipment for measurement, control and laboratory.
Double Insulation
Pollution Degree 2
Dielectric withstand Test per 1 min
• Power to Input/Output:
• Power to Input/Output:
(Low Voltage dc Power Option*)
2300Vac (3250Vdc)
1500Vac (2120Vdc)
• Power to Relays/SSR Output:
• Ethernet to Inputs:
• Isolated RS232 to Inputs:
• Isolated Analog to Inputs:
• Analog/Pulse to Inputs:
Measurement Category I
2300Vac (3250Vdc)
1500Vac (2120Vdc)
500Vac (720Vdc)
500Vac (720Vdc)
No Isolation
Category I are measurements performed on circuits not directly connected to the
Mains Supply (power). Maximum Line-to-Neutral working voltage is 50Vac/dc.
This unit should not be used in Measurement Categories II, III, IV.
Transients Overvoltage Surge (1.2 / 50uS pulse)
• Input Power:
• Input Power:
(Low Voltage dc Power Option*)
2500V
1500V
• Ethernet:
• Input/Output Signals:
1500V
500V
Note: *Units configured for external low power dc voltage, 12-36Vdc
EMC EN61326:1997 + and A1:1998 + A2:2001
Immunity and Emissions requirements for electrical equipment for measurement,
control and laboratory.
• EMC Emissions Table 4, Class B of EN61326
• EMC Immunity** Table 1 of EN61326
Note: **I/O signal and control lines require shielded cables and these cables
must be located on conductive cable trays or in conduits. Furthermore,
the length of these cables should not exceed 30 meters
Refer to the EMC and Safety installation considerations (Guidelines) of this manual
for additional information.
64
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NOTES
65
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NOTES
66
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WARRANTY/DISCLAIMER
OMEGA ENGINEERING, INC. warrants this unit to be free of defects in materials and workmanship for a period of one (1) year
from the date of purchase. In addition to OMEGA’s standard warranty period, OMEGA Engineering will extend the warranty
period for four (4) additional years if the warranty card enclosed with each instrument is returned to OMEGA.
If the unit malfunctions, it must be returned to the factory for evaluation. OMEGA’s Customer Service Department will issue an
Authorized Return (AR) number immediately upon phone or written request. Upon examination by OMEGA, if the unit is found
to be defective, it will be repaired or replaced at no charge. OMEGA’s WARRANTY does not apply to defects resulting from any
action of the purchaser, including but not limited to mishandling, improper interfacing, operation outside of design limits,
improper repair, or unauthorized modification. This WARRANTY is VOID if the unit shows evidence of having been tampered
with or shows evidence of having been damaged as a result of excessive corrosion; or current, heat, moisture or vibration;
improper specification; misapplication; misuse or other operating conditions outside of OMEGA’s control. Components which
wear are not warranted, including but not limited to contact points, fuses, and triacs.
OMEGA is pleased to offer suggestions on the use of its various products. However, OMEGA neither assumes
responsibility for any omissions or errors nor assumes liability for any damages that result from the use of its
products in accordance with information provided by OMEGA, either verbal or written. OMEGA warrants only that the
parts manufactured by it will be as specified and free of defects. OMEGA MAKES NO OTHER WARRANTIES OR
REPRESENTATIONS OF ANY KIND WHATSOEVER, EXPRESS OR IMPLIED, EXCEPT THAT OF TITLE, AND ALL
IMPLIED WARRANTIES INCLUDING ANY WARRANTY OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
PURPOSE ARE HEREBY DISCLAIMED. LIMITATION OF LIABILITY: The remedies of purchaser set forth herein are
exclusive, and the total liability of OMEGA with respect to this order, whether based on contract, warranty, negligence,
indemnification, strict liability or otherwise, shall not exceed the purchase price of the component upon which liability
is based. In no event shall OMEGA be liable for consequential, incidental or special damages.
CONDITIONS: Equipment sold by OMEGA is not intended to be used, nor shall it be used: (1) as a “Basic Component”
under 10 CFR 21 (NRC), used in or with any nuclear installation or activity; or (2) in medical applications or used on
humans. Should any Product(s) be used in or with any nuclear installation or activity, medical application, used on
humans, or misused in any way, OMEGA assumes no responsibility as set forth in our basic WARRANTY/DISCLAIMER
language, and, additionally, purchaser will indemnify OMEGA and hold OMEGA harmless from any liability or damage
whatsoever arising out of the use of the Product(s) in such a manner.
RETURN REQUESTS/INQUIRIES
Direct all warranty and repair requests/inquiries to the OMEGA Customer Service Department. BEFORE RETURNING
ANY PRODUCT(S) TO OMEGA, PURCHASER MUST OBTAIN AN AUTHORIZED RETURN (AR) NUMBER FROM
OMEGA’S CUSTOMER SERVICE DEPARTMENT (IN ORDER TO AVOID PROCESSING DELAYS). The assigned AR
number should then be marked on the outside of the return package and on any correspondence.
The purchaser is responsible for shipping charges, freight, insurance and proper packaging to prevent breakage in
transit.
FOR WARRANTY RETURNS, please have the following
information available BEFORE contacting OMEGA:
FOR NON-WARRANTY REPAIRS, consult OMEGA for current
repair charges. Have the following information available
BEFORE contacting OMEGA:
1. Purchase Order number under which the product was
PURCHASED,
1. Purchase Order number to cover the COST of the repair,
2. Model and serial number of the product under warranty,
and
2. Model and serial number of product, and
3. Repair instructions and/or specific problems relative to the
product.
3. Repair instructions and/or specific problems relative to
the product.
OMEGA’s policy is to make running changes, not model changes, whenever an improvement is possible. This affords our
customers the latest in technology and engineering.
© Copyright 2006 OMEGA ENGINEERING, INC. All rights reserved. This document may not be copied, photocopied,
reproduced, translated, or reduced to any electronic medium or machine-readable form, in whole or in part, without the prior
written consent of OMEGA ENGINEERING, INC.
® , and
®
are Trademarks of OMEGA ENGINEERING, INC.
®
®
TRADEMARK NOTICE:
, omega.com ,
PATENT NOTICE: This product is covered by one or more of the following patents: U.S. Pat. No. Des. 336,895; 5,274,577;
6,243,021 / CANADA 2052599; 2052600 / ITALY 1249456; 1250938 / FRANCE BREVET No. 91 12756 / SPAIN 2039150;
2048066 / UK PATENT No. GB2 249 837; GB2 248 954 / GERMANY DE 41 34398 C2. The “Meter Bezel Design” is a Trademark
of NEWPORT Electronics, Inc. Used under License. Other US and International Patents pending or applied for.
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Where Do I Find Everything I Need for
Process Measurement and Control?
OMEGA…Of Course!
TEMPERATURE
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