1
New Product
Digital Temperature Controller
E5CC-B/E5EC-B
E5
@
C Series Has Large White PV Display That is Easy to Read.
Models with Push-In Plus Terminal Blocks Reduce Wiring Work.
DIN Track-mounting Models That Are Ideal for Connecting to PLCs.
Plug-in Models That Are Convenient for Maintenance.
Various Models Available for a Wide Range of Applications.
Digital Temperature Controllers: E5@C Series
48 × 48 mm
48 × 96 mm
E5CC
E5CC-B
E5CC-U
E5EC
E5EC-B
Models with Screw Terminal Blocks
Models with Push-In Plus Terminal Blocks
Plug-in Models
Models with Screw Terminal Blocks
Models with Push-In Plus Terminal Blocks
page 2
page 23
page 23
page 2
page 2
2
Digital Temperature Controller
E5CC/E5CC-B/E5CC-U
(48 × 48 mm)
Large White PV Display That’s Easier to Read.
Easy to Use, from Model Selection to
Setup and Operation.
Models with Push-In Plus Terminal
Blocks Added to Lineup.
The white PV display with a height of 15.2 mm improves visibility.
High-speed sampling at 50 ms.
Select from models with screw terminal blocks, models with
Push-In Plus terminal blocks for reduced wiring work, and
Plug-in Models that can be removed from the terminal block.
Short body with depth of only 60 mm. (Screw Terminal Blocks)
Easy connections to a PLC with programless communications.
Use component communications to link Temperature
Controllers to each other.
Set up the Controller without wiring the power supply by connecting to the computer with a Communications
Conversion Cable (sold separately). Setup is easy with the CX-Thermo (sold separately).
Main I/O Functions
48 × 48 mm
Screw Terminal
Blocks
E5CC
Refer to Safety Precautions on 45.
Refer to your OMRON website for the most recent information on
applicable safety standards.
48 × 48 mm
Plug-in Models
E5CC-U
*
(E5CC/-U) (E5CC-B)
48 × 48 mm
Push-In Plus
Terminal Blocks
E5CC-B
*CSA conformance evaluation by UL.
Sensor Input
Dual displays: PV/SV 4-digit displays
E5CC/E5CC-B/E5CC-U
Universal input
Thermocouple
Pt
Analog current/voltage
Indication Accuracy
Thermocouple input
<E5CC/E5CC-B> ±0.3%PV
<E5CC-U>±1%PV
Pt input: ±0.2% of PV
Analog input: ±0.2% of FS
Sampling Period
50 ms
Event Inputs
<E5CC>
None
2
4
Remote SP Input
Control Output 1
<E5CC/E5CC-U>
Relay output
Voltage output
(for driving SSR)
Linear current output
<E5CC-B>
Relay output
Voltage output
(for driving SSR)
Control Output 2
Transfer Output
PF (shift) Key
Temperature status display
Simple programming
Independent heating and
cooling PID control
Changed parameter display
Display brightness setting
Auxiliary Outputs
Serial Communications
<E5CC-B>
None
2
<E5CC-U>
None
<E5CC>
None
1
<E5CC-B/E5CC-U>
None
<E5CC/E5CC-B>
None
RS-485
<E5CC-U>
None
<E5CC>
None
Voltage output
(for driving SSR)
<E5CC-B/E5CC-U>
None
<E5CC>
3
<E5CC-B>
2
<E5CC-U>
None
1
2
<E5CC/E5CC-B>
None
1
<E5CC-U>
None
This datasheet is provided as a guideline for selecting products.
Be sure to refer to the following manuals for application precautions and other information required for operation before attempting
to use the product.
E5@C Digital Temperature Controllers User’s Manual (Cat. No. H174)
E5@C Digital Temperature Controllers Communications Manual (Cat. No. H175)
Model Number Legend and Standard Models
Model Number Legend
Models with Screw Terminals
E5CC-@@ 3@5M-@@@ (Example: E5CC-RX3A5M-000)
−−
−−−
ABCDEF
*1. Options with HB and HS alarms (001 and 003) cannot be selected if a linear current output is selected for the control output.
*2. The control output cannot be used as a transfer output.
*3. Option 004 can be selected only when "CX" is selected for the control outputs.
Heating and Cooling Control
Using Heating and Cooling Control
A Control Output Assignment
If there is no control output 2, an auxiliary output is used as the cooling control output.
If there is a control output 2, the two control outputs are used for heating and cooling.
(It does not matter which output is used for heating and which output is used for cooling.)
B Control
If PID control is used, you can set PID control separately for heating and cooling.
This allows you to handle control systems with different heating and cooling response characteristics.
Model
A BCDEF
Meaning
Control outputs
1 and 2
No. of
auxiliary
outputs
Power
supply
voltage
Terminal
type
Input
type Options
E5CC 48 × 48 mm
Control output 1 Control output 2
RX Relay output None
QX Voltage output
(for driving SSR) None
*1 *3 CX Linear current output *2 None
QQ Voltage output
(for driving SSR)
Voltage output
(for driving SSR)
CQ Linear current output *2 Voltage output
(for driving SSR)
33 (one common)
A100 to 240 VAC
D24 VAC/DC
5Screw terminals (with cover)
MUniversal input
HB alarm and
HS alarm
Communications
Event
inputs
Remote
SP Input
Transfer
output
000 --- --- --- --- ---
*1 001 1 --- 2 --- ---
*1 003
2
(for 3-phase
heaters)
RS-485 --- --- ---
*3 004 --- RS-485 2 --- ---
005 --- --- 4 --- ---
006 --- --- 2 Provided.
007 --- --- 2 Provided. ---
E5CC/E5CC-B/E5CC-U
3
E5CC/E5CC-B/E5CC-U
List of Models
Input Output Fixed option Alarms 110-240 VAC model 24 VAC/VDC model
Temperature
Analog
Out1: Relay
Out2: None
---
3 relays
E5CC-RX3A5M-000 E5CC-RX3D5M-000
Event Input 2,
Heater Burnout SSR defect detection E5CC-RX3A5M-001 E5CC-RX3D5M-001
Communication
3-phase heater alarm E5CC-RX3A5M-003 E5CC-RX3D5M-003
Event Input 4 E5CC-RX3A5M-005 E5CC-RX3D5M-005
Event Input 2,
Transfer output E5CC-RX3A5M-006 E5CC-RX3D5M-006
Event Input 2,
Remote SP E5CC-RX3A5M-007 E5CC-RX3D5M-007
Out1: Voltage (pulse)
Out2: None
--- E5CC-QX3A5M-000 E5CC-QX3D5M-000
Event Input 2,
Heater Burnout SSR defect detection E5CC-QX3A5M-001 E5CC-QX3D5M-001
Communication
3-phase heater alarm E5CC-QX3A5M-003 E5CC-QX3D5M-003
Event Input 4 E5CC-QX3A5M-005 E5CC-QX3D5M-005
Event Input 2,
Transfer output E5CC-QX3A5M-006 E5CC-QX3D5M-006
Event Input 2,
Remote SP E5CC-QX3A5M-007 E5CC-QX3D5M-007
Temperature
Analog
Out1: Voltage (pulse)
Out2: Voltage (pulse)
--- E5CC-QQ3A5M-000 E5CC-QQ3D5M-000
Event Input 2,
Heater Burnout SSR defect detection E5CC-QQ3A5M-001 E5CC-QQ3D5M-001
Communication
3-phase heater alarm E5CC-QQ3A5M-003 E5CC-QQ3D5M-003
Event Input 4 E5CC-QQ3A5M-005 E5CC-QQ3D5M-005
Event Input 2,
Transfer output E5CC-QQ3A5M-006 E5CC-QQ3D5M-006
Event Input 2,
Remote SP E5CC-QQ3A5M-007 E5CC-QQ3D5M-007
Out1: Linear current
Out2: None
--- E5CC-CX3A5M-000 E5CC-CX3D5M-000
Event Input 2,
Communication E5CC-CX3A5M-004 E5CC-CX3D5M-004
Event Input 4 E5CC-CX3A5M-005 E5CC-CX3D5M-005
Event Input 2,
Transfer output E5CC-CX3A5M-006 E5CC-CX3D5M-006
Event Input 2,
Remote SP E5CC-CX3A5M-007 E5CC-CX3D5M-007
4
E5CC/E5CC-B/E5CC-U
Model Number Legend
Plug-in Models
E5CC-@@ @ @ U M -000 (Example: E5CC-RW0AUM-000)
ABCDEF
* The control output can be used as a simple transfer output for the Digital Temperature Controllers manufactured in May 2014 or later.
List of Models
Heating and Cooling Control
Using Heating and Cooling Control
A Control Output Assignment
An auxiliary output is used as the cooling control output.
B Control
If PID control is used, you can set PID control separately for heating and cooling.
This allows you to handle control systems with different heating and cooling response characteristics.
Model
ABCDEF
Meaning
Control
outputs
1 and 2
No. of
auxiliary
outputs
Power
supply
voltage
Terminal
type
Input
type Options
E5CC 48 × 48 mm
Control output 1 Control output 2
RW Relay output (SPDT) None
QX Voltage output (for driving SSR) None
CX Linear current output* None
0None
11
22 (one common)
A100 to 240 VAC
D24 VAC/DC
UPlug-in model
MUniversal input
HB alarm and HS
alarm
Communi-
cations
Event inputs
Remote SP
Input
Transfer out-
put
000 --- --- --- --- ---
Control output No. of auxiliary
outputs
Options Model Model
HB alarm and
HS alarm
No. of event
inputs Communications
Power supply voltage Power supply voltage
100 to 240 VAC 24 VAC/DC
Relay output
---
--- --- ---
E5CC-RW0AUM-000 E5CC-RW0DUM-000
1E5CC-RW1AUM-000 E5CC-RW1DUM-000
2E5CC-RW2AUM-000 E5CC-RW2DUM-000
Voltage output
(for driving SSR)
---
--- --- ---
E5CC-QX0AUM-000 E5CC-QX0DUM-000
1E5CC-QX1AUM-000 E5CC-QX1DUM-000
2E5CC-QX2AUM-000 E5CC-QX2DUM-000
Linear current
output
---
--- --- ---
E5CC-CX0AUM-000 E5CC-CX0DUM-000
1E5CC-CX1AUM-000 E5CC-CX1DUM-000
2E5CC-CX2AUM-000 E5CC-CX2DUM-000
5
E5CC/E5CC-B/E5CC-U
6
Model Number Legend
Models with Push-In Plus Terminal Blocks
E5CC-@@ 2@BM-@@@ (Example: E5CC-RX2ABM-000)
−−
−−−
ABCDEF
Heating and Cooling Control
Using Heating and Cooling Control
A Control Output Assignment
An auxiliary output is used as the cooling control output.
B Control
If PID control is used, you can set PID control separately for heating and cooling.
This allows you to handle control systems with different heating and cooling response characteristics.
Model
A B C D E F
Meaning
Control outputs
1 and 2
No. of
auxiliary
outputs
Power
supply
voltage
Terminal
type
Input
type Options
E5CC 48 × 48 mm
Control output 1 Control output 2
RX Relay output None
QX Voltage output
(for driving SSR) None
22 (one common)
A100 to 240 VAC
D24 VAC/DC
BPush-in plus terminal blocks
MUniversal input
HB alarm and
HS alarm
Communications
Event
inputs
Remote
SP Input
Transfer
output
000 --- --- --- --- ---
001 1 --- 2 --- ---
002 1 RS-485 --- --- ---
004 --- RS-485 2 --- ---
006 --- --- 2 --- Provided.
List of Models
Input Output Fixed option Alarms Order cod e (48x48mm model)
AC110-240V AC/DC24V
Temperature
Analog
Out1: Relay
Out2: None
--
2 relays
E5CC-RX2ABM-000 E5CC-RX2DBM-000
Event Input 2,
Heater Burnout SSR defect detection E5CC-RX2ABM-001 E5CC-RX2DBM-001
Communication
Heater Burnout SSR defect detection E5CC-RX2ABM-002 E5CC-RX2DBM-002
Event Input 2, Communication E5CC-RX2ABM-004 E5CC-RX2DBM-004
Event Input 2,
Transfer output E5CC-RX2ABM-006 E5CC-RX2DBM-006
Out1: Voltage
(pulse)
Out2: None
-- E5CC-QX2ABM-000 E5CC-QX2DBM-000
Event Input 2,
Heater Burnout SSR defect detection E5CC-QX2ABM-001 E5CC-QX2DBM-001
Communication
Heater Burnout SSR defect detection E5CC-QX2ABM-002 E5CC-QX2DBM-002
Event Input 2, Communication E5CC-QX2ABM-004 E5CC-QX2DBM-004
Event Input 2,
Transfer output E5CC-QX2ABM-006 E5CC-QX2DBM-006
E5CC/E5CC-B/E5CC-U
7
Optional Products (Order Separately)
USB-Serial Conversion Cable
Terminal Covers (for E5CC)
Note: The Terminal Covers E53-COV23 are provided only with E5CC
Controllers. The E53-COV10 cannot be used.
Refer to page 28 for the mounted dimensions.
Waterproof Packing
Note: The Waterproof Packing is provided only with E5CC
Controllers.
The E5CC-U cannot be waterproofed even if the Waterproof
Packing is attached.
Current Transformers (CTs)
Adapter
Note: Use this Adapter when the panel has already been prepared for
an E5B@ Controller.
Waterproof Cover
Mounting Adapter
Note: This Mounting Adapter is provided with the Digital Temperature
Controller.
DIN Track Mounting Adapter
Sockets (for E5CC-U)
Front Covers
CX-Thermo Support Software
Note: CX-Thermo version 4.5 or higher is required for the E5CC.
CX-Thermo version 4.61 or higher is required for the E5CC-U.
For the system requirements for the CX-Thermo, refer to
information on the EST2-2C-MV4 on the OMRON website
(www.ia.omron.com).
Model
E58-CIFQ2
Model
E53-COV17
E53-COV23 (3 pieces)
Model
Y92S-P8
Hole diameter Model
5.8 mm E54-CT1
12.0 mm E54-CT3
Model
Y92F-45
Model
Y92A-48N
Model
Y92F-49
Model
Y92F-52
Type Model
Front-connecting Socket P2CF-11
Front-connecting Socket with Finger Protection P2CF-11-E
Back-connecting Socket P3GA-11
Terminal Cover for Back-connecting socket
with Finger Protection Y92A-48G
Type Model
Hard Front Cover Y92A-48H
Soft Front Cover Y92A-48D
Model
EST2-2C-MV4
8
E5CC/E5CC-B/E5CC-U
Specifications
Ratings
*1. There are no optional functions for the E5CC-U. Refer to Model Number Legend and List of Models on page 5.
*2. This function is not supported by the E5CC-B. Refer to Model Number Legend on page 6.
*3. With the E5CC-B, there can be up to four set points if event inputs are used to select them.
Power supply voltage A in model number: 100 to 240 VAC, 50/60 Hz
D in model number: 24 VAC, 50/60 Hz; 24 VDC
Operating voltage range 85% to 110% of rated supply voltage
Power consumption
Models with option selection of 000:5.2 VA max. at 100 to 240 VAC, and 3.1 VA max. at 24 VAC or
1.6 W max. at 24 VDC
All other models: 6.5 VA max. at 100 to 240 VAC, and 4.1 VA max. at 24 VAC or 2.3 W max. at 24 VDC
Sensor input
Temperature input
Thermocouple: K, J, T, E, L, U, N, R, S, B, W, or PL II
Platinum resistance thermometer: Pt100 or JPt100
Infrared temperature sensor (ES1B): 10 to 70°C, 60 to 120°C, 115 to 165°C, or 140 to 260°C
Analog input
Current input: 4 to 20 mA or 0 to 20 mA
Voltage input: 1 to 5 V, 0 to 5 V, 0 to 10 V,or 0 to 50 mV (The 0 to 50 mV range applies to the
E5CC-U only for those manufactured in May 2014 or later.)
Input impedance Current input: 150 max., Voltage input: 1 M min.
(Use a 1:1 connection when connecting the ES2-HB/THB.)
Control method ON/OFF control or 2-PID control (with auto-tuning)
Control
output
Relay output
E5CC/E5CC-B: SPST-NO, 250 VAC, 3 A (resistive load), electrical life: 100,000 operations,
minimum applicable load: 5 V, 10 mA (reference value)
E5CC-U: SPDT, 250 VAC, 3 A (resistive load), electrical life: 100,000 operations,
minimum applicable load: 5 V, 10 mA (reference value)
Voltage output
(for driving SSR) Output voltage: 12 VDC ±20% (PNP), max. load current: 21 mA, with short-circuit protection circuit
Linear current output *2 4 to 20 mA DC/0 to 20 mA DC, load: 500 max., resolution: approx. 10,000
Auxiliary
output
Number of outputs
E5CC: 3
E5CC-B: 2
E5CC-U: 1 or 2 (depends on model)
Output specifications
SPST-NO relay outputs, 250 VAC, Models with 1 output: 3 A (resistive load), E5CC-U models with 2
outputs: 3 A (resistive load), E5CC-B models with 2 outputs: 2 A (resistive load), Models with 3
outputs: 2 A (resistive load), Electrical life: 100,000 operations, Minimum applicable load: 10 mA at
5 V (reference value)
Event
input *1
Number of inputs E5CC: 2 or 4 (depends on model)
E5CC-B: 2 (depends on model)
External contact input
specifications
Contact input: ON: 1 k max., OFF: 100 k min.
Non-contact input: ON: Residual voltage: 1.5 V max., OFF: Leakage current: 0.1 mA max.
Current flow: Approx. 7 mA per contact
Transfer
output *1
Number of outputs 1 (only on models with a transfer output)
Output specifications Current output: 4 to 20 mA DC, load: 500 max., resolution: approx. 10,000
Linear voltage output: 1 to 5 VDC, load: 1 k min., resolution: Approx. 10,000
Setting method Digital setting using front panel keys
Remote SP input *1 *2 Current input: 4 to 20 mA DC or 0 to 20 mA DC (input impedance: 150 max.)
Voltage input: 1 to 5 V, 0 to 5 V, or 0 to 10 V (input impedance: 1 M min.)
Indication method 11-segment digital display and individual indicators
Character height: PV: 15.2 mm, SV: 7.1 mm
Multi SP *3Up to eight set points (SP0 to SP7) can be saved and selected using the event inputs, key operations,
or serial communications.
Bank switching None
Other functions
Manual output, heating/cooling control, loop burnout alarm, SP ramp, other alarm functions, heater
burnout (HB) alarm (including SSR failure (HS) alarm), 40% AT, 100% AT, MV limiter, input digital
filter, self tuning, robust tuning, PV input shift, run/stop, protection functions, extraction of square root,
MV change rate limit, logic operations, temperature status display, simple programming, moving
average of input value, and display brightness setting
Ambient operating temperature 10 to 55°C (with no condensation or icing), For 3-year warranty: 10 to 50°C with standard mounting
(with no condensation or icing)
Ambient operating humidity 25% to 85%
Storage temperature -25 to 65°C (with no condensation or icing)
Altitude 2,000 m max.
Recommended fuse T2A, 250 VAC, time-lag, low-breaking capacity
Installation environment Overvoltage category II, Pollution Degree 2 (EN/IEC/UL 61010-1)
E5CC/E5CC-B/E5CC-U
9
Input Ranges
Thermocouple/Platinum Resistance Thermometer (Universal inputs)
Shaded settings are the default settings.
The applicable standards for the input types are as follows:
K, J, T, E, N, R, S, B: JIS C 1602-1995, IEC 60584-1 JPt100: JIS C 1604-1989, JIS C 1606-1989
L: Fe-CuNi, DIN 43710-1985 Pt100: JIS C 1604-1997, IEC 60751
U: Cu-CuNi, DIN 43710-1985 PL II: According to Platinel II electromotive force charts from BASF (previously Engelhard)
W: W5Re/W26Re, ASTM E988-1990
Analog input
* The range applies to the E5CC-U only for those manufactured in May 2014 or later.
Sensor
type
Platinum resistance
thermometer Thermocouple Infrared temperature
sensor
Sensor
specifica-
tion
Pt100 JPt100 K J T E L U N R S B W
PLII
10 to
70°C
60 to
120°C
115 to
165°C
140 to
260°C
2300
1800
1700
1600
1500
1400
1300
1200
1100
1000
900
800
700
600
500
400
300
200
100
0
-100
-200
2300
1800
1700 1700
1300 1300 1300
850 850 850
600
500.0 500.0 500.0
400.0
400
400.0
400
400.0
260
120 165
100.0 100.0
90
100
0.0 0.0 00 000000
-20.0
-100
-20.0
-100
-200
-199.9 199.9
-200 -200
-199.9
-200 -200
-199.9
-200
Set value 012345 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
Input type Current Voltage
Input
specification
4 to 20 mA 0 to 20 mA
1 to 5 V 0 to 5 V 0 to 10 V 0 to 50 mV*
Setting range
Usable in the following ranges by scaling:
-1999 to 9999, -199.9 to 999.9,
-19.99 to 99.99 or -1.999 to 9.999
Set value 25 26 27 28 29 30
Temperature range (°C)
E5CC/E5CC-B/E5CC-U
10
Alarm Types
Each alarm can be independently set to one of the following 19 alarm types. The default is 2: Upper limit. (see note.)
Auxiliary outputs are allocated for alarms. ON delays and OFF delays (0 to 999 s) can also be specified.
Note:
In the default settings for models with HB or HS alarms, alarm 1 is set to a heater alarm (HA) and the Alarm Type 1 parameter is not displayed.
To use alarm 1, set the output assignment to alarm 1.
Set
value
Alarm type
Alarm output operation
Description of function
When alarm value X
is positive
When alarm value X
is negative
0 Alarm function OFF Output OFF No alarm
1 Upper- and lower-limit *1 *2
Set the upward deviation in the set point for the alarm upper
limit (H) and the lower deviation in the set point for the alarm
lower limit (L). The alarm is ON when the PV is outside this
deviation range.
2
(default) Upper-limit
Set the upward deviation in the set point by setting the alarm
value (X). The alarm is ON when the PV is higher than the
SP by the deviation or more.
3 Lower-limit
Set the downward deviation in the set point by setting the
alarm value (X). The alarm is ON when the PV is lower than
the SP by the deviation or more.
4Upper- and lower-limit
range *1 *3
Set the upward deviation in the set point for the alarm upper
limit (H) and the lower deviation in the set point for the alarm
lower limit (L). The alarm is ON when the PV is inside this de-
viation range.
5Upper- and lower-limit
with standby sequence *1 *4 A standby sequence is added to the upper- and lower-limit
alarm (1). *6
6Upper-limit with standby
sequence A standby sequence is added to the upper-limit alarm (2). *6
7Lower-limit with standby
sequence A standby sequence is added to the lower-limit alarm (3). *6
8Absolute-value upper-lim-
it
The alarm will turn ON if the process value is larger than the
alarm value (X) regardless of the set point.
9 Absolute-value lower-limit The alarm will turn ON if the process value is smaller than the
alarm value (X) regardless of the set point.
10 Absolute-value upper-lim-
it with standby sequence
A standby sequence is added to the absolute-value upper-
limit alarm (8). *6
11 Absolute-value lower-limit
with standby sequence
A standby sequence is added to the absolute-value lower-
limit alarm (9). *6
12
LBA (alarm 1 type only)
-*7
13 PV change rate alarm - *8
14 SP absolute-value
upper-limit alarm
This alarm type turns ON the alarm when the set point (SP)
is higher than the alarm value (X).
15 SP absolute-value
lower-limit alarm
This alarm type turns ON the alarm when the set point (SP)
is lower than the alarm value (X).
16 MV absolute-value
upper-limit alarm *9
Standard Control Standard Control
This alarm type turns ON the alarm when the manipulated
variable (MV) is higher than the alarm value (X).
Heating/Cooling
Control (Heating MV) Heating/Cooling
Control (Heating MV)
Always ON
17 MV absolute-value
lower-limit alarm *9
Standard Control Standard Control
This alarm type turns ON the alarm when the manipulated
variable (MV) is lower than the alarm value (X).
Heating/Cooling
Control (Cooling MV) Heating/Cooling
Control (Cooling MV)
Always ON
18 RSP absolute-value
upper-limit alarm *10
This alarm type turns ON the alarm when the remote SP
(RSP) is higher than the alarm value (X).
19 RSP absolute-value
lower-limit alarm *10
This alarm type turns ON the alarm when the remote SP
(RSP) is lower than the alarm value (X).
ON
OFF PV
SP
LH
SP
X
ON
OFF PV SP
X
ON
OFF PV
SP
X
ON
OFF PV SP
X
ON
OFF PV
SP
LH
ON
OFF PV
SP
LH
ON
OFF PV
*5
SP
X
ON
OFF PV SP
X
ON
OFF PV
SP
X
ON
OFF PV SP
X
ON
OFF PV
0
X
ON
OFF PV 0
X
ON
OFF PV
0
X
ON
OFF PV 0
X
ON
OFF PV
0
X
ON
OFF PV 0
X
ON
OFF PV
0
X
ON
OFF PV 0
X
ON
OFF PV
0
X
ON
OFF SP 0
X
ON
OFF SP
0
X
ON
OFF SP 0
X
ON
OFF SP
0
X
ON
OFF MV 0
X
ON
OFF MV
0
X
ON
OFF MV
0
X
ON
OFF MV 0
X
ON
OFF MV
0
X
ON
OFF MV
0
X
ON
OFF RSP 0
X
ON
OFF RSP
0
X
ON
OFF RSP 0
X
ON
OFF RSP
E5CC/E5CC-B/E5CC-U
11
*1 With set values 1, 4 and 5, the upper and lower limit values can be set
independently for each alarm type, and are expressed as “L” and “H.”
*2 Set value: 1, Upper- and lower-limit alarm
*3 Set value: 4, Upper- and lower-limit range
*4 Set value: 5, Upper- and lower-limit with standby sequence
For Upper- and Lower-Limit Alarm Described Above *2
Case 1 and 2
Always OFF when the upper-limit and lower-limit hysteresis overlaps.
Case 3: Always OFF
*5. Set value: 5, Upper- and lower-limit with standby sequence
Always OFF when the upper-limit and lower-limit hysteresis overlaps.
*6 Refer to the E5
@
C Digital Temperature Controllers User's Manual (Cat. No.
H174) for information on the operation of the standby sequence.
*7 Refer to the E5
@
C Digital Temperature Controllers User's Manual (Cat.
No.H174) for information on the loop burnout alarm (LBA).
*8 Refer to the E5
@
C Digital Temperature Controllers User's Manual (Cat. No.
H174) for information on the PV change rate alarm.
*9 When heating/cooling control is performed, the MV absolute upper limit
alarm functions only for the heating operation and the MV absolute lower
limit alarm functions only for the cooling operation.
*10 This value is displayed only when a remote SP input is used. It functions in
both Local SP Mode and Remote SP Mode.
Remote SP input is supported only for the E5CC.
LH
H<0, L>0
|H| < |L|
SP
Case 1
LH
H>0, L<0
|H| > |L|
SP
Case 2
LH
H<0, L<0
SP
LH
H<0, L>0
|H| |L|
SP
LH
H>0, L<0
|H| |L|
SP
Case 3 (Always ON)
LH
H<0, L>0
|H| < |L|
SP
Case 1
LH
H>0, L<0
|H| > |L|
SP
Case 2
LH
H<0, L<0
SP
L
L
H
H<0, L>0
|H| |L|
SP
H
H>0, L<0
|H| |L|
SP
Case 3 (Always OFF)
12
E5CC/E5CC-B/E5CC-U
Characteristics
*1. The indication accuracy of K thermocouples in the -200 to 1,300°C range, T and N thermocouples at a temperature of -100°C max., and U and
L thermocouples at any temperatures is ±2°C ±1 digit max. The indication accuracy of the B thermocouple at a temperature of 400°C max. is
not specified. The indication accuracy of B thermocouples at a temperature of 400 to 800°C is ±3°C max. The indication accuracy of the R and
S thermocouples at a temperature of 200°C max. is ±3°C ±1 digit max. The indication accuracy of W thermocouples is (±0.3% of PV or ±3°C,
whichever is greater) ±1 digit max. The indication accuracy of PL II thermocouples is (±0.3% of PV or ±2°C, whichever is greater) ±1 digit max.
*2. However, the precision between 0 and 4 mA for a 0 to 20 mA output is ±1% FS max.
*3. Ambient temperature: -10°C to 23°C to 55°C, Voltage range: -15% to 10% of rated voltage
*4. K thermocouple at -100°C max.: ±10°C max.
*5. The unit is determined by the setting of the Integral/Derivative Time Unit parameter.
*6. External communications (RS-485) and USB-serial conversion cable communications can be used at the same time.
Indication accuracy
(at the ambient temperature of 23°C)
E5CC/E5CC-B
Thermocouple: (±0.3% of indication value or ±1°C, whichever is greater) ±1 digit max. *1
Platinum resistance thermometer: (
±
0.2% of indication value or
±
0.8°C, whichever is greater)
±
1 digit max.
Analog input:
±
0.2% FS
±
1 digit max.
CT input: ±5% FS ±1 digit max.
E5CC-U
Thermocouple: (±1% of indication value or ±2°C, whichever is greater) ±1 digit max. *1
Platinum resistance thermometer: (
±
0.2% of indication value or
±
0.8°C, whichever is greater)
±
1 digit max.
Analog input:
±
0.2% FS
±
1 digit max.
Transfer output accuracy ±0.3% FS max.
Simple transfer output accuracy ±0.3% FS max.*2
Remote SP Input Type ±0.2% FS ±1 digit max.
Influence of temperature *3
Thermocouple input (R, S, B, W, PL II): (
±
1% of indication value or
±
10°C, whichever is greater)
±
1 digit max.
Other thermocouple input: (±1% of indication value or ±4°C, whichever is greater) ±1 digit max. *4
Platinum resistance thermometer: (±1% of indication value or ±2°C, whichever is greater) ±1 digit max.
Analog input: ±1%FS ±1 digit max.
CT input: ±5% FS ±1 digit max.
Remote SP input: ±1% FS ±1 digit max.
Influence of voltage *3
Influence of EMS.
(at EN 61326-1)
Input sampling period 50 ms
Hysteresis Temperature input: 0.1 to 999.9°C or °F (in units of 0.1°C or °F)
Analog input: 0.01% to 99.99% FS (in units of 0.01% FS)
Proportional band (P) Temperature input: 0.1 to 999.9°C or °F (in units of 0.1°C or °F)
Analog input: 0.1% to 999.9% FS (in units of 0.1% FS)
Integral time (I) 0 to 9999 s (in units of 1 s), 0.0 to 999.9 s (in units of 0.1 s) *5
Derivative time (D) 0 to 9999 s (in units of 1 s), 0.0 to 999.9 s (in units of 0.1 s) *5
Proportional band (P) for cooling Temperature input: 0.1 to 999.9°C or °F (in units of 0.1°C or °F)
Analog input: 0.1% to 999.9% FS (in units of 0.1% FS)
Integral time (I) for cooling 0 to 9999 s (in units of 1 s), 0.0 to 999.9 s (in units of 0.1 s) *5
Derivative time (D) for cooling 0 to 9999 s (in units of 1 s), 0.0 to 999.9 s (in units of 0.1 s) *5
Control period 0.1, 0.2, 0.5, 1 to 99 s (in units of 1 s)
Manual reset value 0.0 to 100.0% (in units of 0.1%)
Alarm setting range -1999 to 9999 (decimal point position depends on input type)
Influence of signal source resistance Thermocouple: 0.1°C/ max. (100 max.)
Platinum resistance thermometer: 0.1°C/ max. (10 max.)
Insulation resistance 20 M min. (at 500 VDC)
Dielectric strength 3,000 VAC, 50/60 Hz for 1 min between terminals of different charge
Vibration Malfunction 10 to 55 Hz, 20 m/s2 for 10 min each in X, Y, and Z directions
Resistance 10 to 55 Hz, 20 m/s2 for 2 hrs each in X, Y, and Z directions
Shock Malfunction 100 m/s2, 3 times each in X, Y, and Z directions
Resistance 300 m/s2, 3 times each in X, Y, and Z directions
Weight E5CC/E5CC-B: Controller: Approx. 120 g, Adapter: Approx. 10 g
E5CC-U: Controller: Approx. 100 g, Adapter: Approx. 10 g
Degree of protection E5CC/E5CC-B: Front panel: IP66, Rear case: IP20, Terminals: IP00
E5CC-U: Front panel: IP50, Rear case: IP20, Terminals: IP00
Memory protection Non-volatile memory (number of writes: 1,000,000 times)
Setup Tool
E5CC: CX-Thermo version 4.5 or higher
E5CC-B: CX-Thermo version 4.65 or higher
E5CC-U: CX-Thermo version 4.61 or higher
Setup Tool port E5CC/E5CC-B/E5CC-U top panel: An E58-CIFQ2 USB-Serial Conversion Cable is used to connect
to a USB port on the computer. *6
13
E5CC/E5CC-B/E5CC-U
*7. The E5CC-U plug-in model is certified for UL listing only when used together with the OMRON P2CF-11 or P2CF-11-E Socket. The P3GA-11
is not certified for UL listing.
*8. Access the following website for information on certified models. http://www.ia.omron.com/support/models/index.html
*9. Refer to information on maritime standards in Shipping Standards on page 106 for compliance with Lloyd's Standards.
*10.Industrial electromagnetic environment (EN/IEC 61326-1 Table 2)
Standards Approved standards cULus: UL 61010-1/CSA C22.2 No.61010-1 *7, KOSHA (S Mark) certification (Some models only.) *8,
Korean wireless regulations (Radio law: KC Mark) (Some models only.) *8, Lloyd's standards *9
Conformed standards EN 61010-1 (IEC 61010-1)
EMC
EMI: EN 61326-1 *10
Radiated Interference Electromagnetic Field Strength: EN 55011 Group 1, class A
EN 55011 Group 1, class A
EN 61326-1 *10
EN 61000-4-2
EN 61000-4-3
EN 61000-4-4
EN 61000-4-6
EN 61000-4-5
Noise Terminal Voltage:
EMS:
ESD Immunity:
Electromagnetic Field Immunity:
Burst Noise Immunity:
Conducted Disturbance Immunity:
Surge Immunity:
Voltage Dip/Interrupting Immunity: EN 61000-4-11
E5CC/E5CC-B/E5CC-U
USB-Serial Conversion Cable
Windows is a registered trademark of Microsoft Corporation in the
United States and or other countries.
*1. CX-Thermo version 4.65 or higher runs on Windows 10.
*2. Use a high-power port for the USB port.
Note:
A driver must be installed on the computer. Refer to the
Instruction
Manual
included with the Cable for the installation procedure.
Communications Specifications
*The baud rate, data bit length, stop bit length, and vertical parity can
be individually set using the Communications Setting Level.
Communications Functions
MELSEC is a registered trademark of Mitsubishi Electric Corporation.
KEYENCE is a registered trademark of Keyence Corporation.
*1. A Temperature Controller with version 1.1 or higher is required.
A Temperature Controller with version 2.1 or higher is required for
the FX Series or the KV Series.
*2. Both the programless communications and the component
communications support the copying.
Current Transformer (Order Separately) Ratings
Heater Burnout Alarms and SSR Failure Alarms
*1. For heater burnout alarms, the heater current will be measured
when the control output is ON, and the output will turn ON if the
heater current is lower than the set value (i.e., heater burnout
detection current value).
*2.
For SSR failure alarms, the heater current will be measured when the
control output is OFF, and the output will turn ON if the heater current
is higher than the set value (i.e., SSR failure detection current value).
*3. The value is 30 ms for a control period of 0.1 s or 0.2 s.
*4. The value is 35 ms for a control period of 0.1 s or 0.2 s.
Electrical Life Expectancy Curve for
Relays (Reference Values)
Applicable OS Windows XP/Vista/7/8/10 *1
Applicable software
CX-Thermo version 4.5 or higher
(Version 4.61 or higher is required for the
E5CC-U, Version 4.65 or higher is required
for the E5CC-B.)
Applicable models
E5
@
C-T Series, E5
@
C Series, and E5CB Series
USB interface standard
Conforms to USB Specification 2.0.
DTE speed 38400 bps
Connector
specifications
Computer: USB (type A plug)
Digital Temperature Controller:
Special serial connector
Power supply
Bus power (Supplied from USB host controller.)
*
2
Power supply voltage
5 VDC
Current consumption
450 mA max.
Output voltage
4.7±0.2 VDC
(Supplied from USB-Serial Conversion Cable
to the Digital Temperature Controller.)
Output current
250 mA max.
(Supplied from USB-Serial Conversion Cable
to the Digital Temperature Controller.)
Ambient operating
temperature 0 to 55°C (with no condensation or icing)
Ambient operating humidity
10% to 80%
Storage temperature -20 to 60°C (with no condensation or icing)
Storage humidity 10% to 80%
Altitude 2,000 m max.
Weight Approx. 120 g
Transmission line
connection method RS-485: Multidrop
Communications RS-485 (two-wire, half duplex)
Synchronization method
Start-stop synchronization
Protocol CompoWay/F, or Modbus
Baud rate *9600, 19200, 38400, or 57600 bps
Transmission code ASCII
Data bit length *7 or 8 bits
Stop bit length *1 or 2 bits
Error detection
Vertical parity (none, even, odd)
Block check character (BCC) with
CompoWay/F or CRC-16 Modbus
Flow control None
Interface RS-485
Retry function None
Communications buffer
217 bytes
Communications
response wait time
0 to 99 ms
Default: 20 ms
Programless
communications *1
You can use the memory in the PLC to read and write
E5
@
C parameters, start and stop operation, etc. The
E5
@
C automatically performs communications with
PLCs. No communications programming is required.
Number of connected Digital Temperature
Controllers: 32 max. (Up to 16 for the FX Series)
Applicable PLCs
OMRON PLCs
CS Series, CJ Series, or
CP Series
Mitsubishi Electric PLCs
MELSEC Q Series, L Series, or FX Series
(compatible with the FX2 or FX3 (excluding the FX1S))
KEYENCE PLCs
KEYENCE KV Series
Component
Communications *1
When Digital Temperature Controllers are
connected, set points and RUN/STOP
commands can be sent from the Digital
Temperature Controller that is set as the
master to the Digital Temperature
Controllers that are set as slaves.
Slope and offsets can be set for the set point.
Number of connected Digital Temperature
Controllers: 32 max. (including master)
Copying *2
When Digital Temperature Controllers are
connected, the parameters can be copied
from the Digital Temperature Controller that is
set as the master to the Digital Temperature
Controllers that are set as slaves.
Dielectric strength 1,000 VAC for 1 min
Vibration resistance 50 Hz, 98 m/s2
Weight E54-CT1: Approx. 11.5 g,
E54-CT3: Approx. 50 g
Accessories
(E54-CT3 only)
Armatures (2)
Plugs (2)
CT input (for heater
current detection)
Models with detection for single-phase
heaters: One input
Models with detection for single-phase
or three-phase heaters: Two inputs
Maximum heater current
50 A AC
Input current
indication accuracy ±5% FS ±1 digit max.
Heater burnout alarm
setting range
*
1
0.1 to 49.9 A (in units of 0.1 A)
Minimum detection ON time: 100 ms *3
SSR failure alarm
setting range *2
0.1 to 49.9 A (in units of 0.1 A)
Minimum detection OFF time: 100 ms *4
500
300
100
50
30
10
5
3
1
0123456
Switching current (A)
E5CC/E5CC-B
250 VAC, 30 VDC
(resistive load)
cosφ = 1
Life (× 104 operations)
14
External Connections
E5CC (Screw Terminal Blocks)
Note: 1. The application of the terminals depends on the model.
2. Do not wire the terminals that are shown with a gray background.
3. When complying with EMC standards, the cable that connects the sensor must be 30 m or less.
If the cable length exceeds 30 m, compliance with EMC standards will not be possible.
4. Connect M3 crimped terminals.
Voltage output
(for driving SSR)
12 VDC, 21 mA
Control output 2
The E5CC is set for a K-type thermocouple (input type = 5) by
default. An input error (s.err) will occur if the input type setting does
not agree with the temperature sensor. Check the input type.
Control output 1
Relay output
250 VAC, 3A
(resistive load)
Voltage output
(for driving SSR)
12 VDC, 21 mA
Linear current output
0 to 20 mA DC
4 to 20 mA DC
Load: 500 Ω max.
Relay outputs
Models with 3 auxiliary
outputs: 250 VAC, 2 A
(resistive load)
(no polarity)
100 to 240 VAC 24 VAC/DC
Auxiliary outputs 1, 2, 3
7
8
9
10 ●●
Auxiliary output 2
Auxiliary output 3
Auxiliary output 1
005
Event Inputs
1 to 4
004
Communications
(RS-485), and
Event Inputs 3 and 4
007
Event Inputs
1 and 2, and
Remote SP Input
006
Event Inputs
1 and 2, and
Transfer Output
001
Event Inputs 1
and 2, and CT1
003
Communications
(RS-485), CT1,
and CT2
(2) Auxiliary Outputs
(3) Input Power Supply
(5) Sensor (Temperature/Analog) Input
(6) Options
Models with
1 Linear
Current Output
Models with
1 Relay
Output
Models with 2
Voltage Outputs
(for Driving SSR)
(1) Control outputs 1, 2
Models with 1
Voltage Output
(for Driving SSR)
RX QX CX QQ
Auxiliary outputs 1, 2, 3
E5CC-@@ 3 @ 5 M - @@@
Terminal type
Models with 2 Outputs: Linear Current
Output and Voltage (for Driving SSR)
CQ
17
18 12
15
16
1
2
13
14
3
11
4
6
7
8
9
10
5
6
4
5
6
5
6
Pt
A
B
B
+
-
m
A
-
+
5
4
V
-5
V6
+
4
TC
4
I
11
12
11
12
18
13
16
17
16
17
18
13
16
17
18
13
14
15
13
14
15
16
18
13
14
15
16
17
18
16
17
13
17
18
V
I
V
m
14
15
14
15
14
15
EV1
EV2
EV1
EV2
EV1
EV2
EV1
EV2
EV3
EV4
EV3
EV4
CT1
B(+)
A(-)
RS-485
B(+)
A(-)
RS-485
CT2
COM
CT1
+-
3
1
2
3
1
2-
3+Q
1+
2-
3
C
OUT1
C
OUT1
OUT1
OUT2
Q
OUT1
R
1
2
+
3+Q
1+
2-
Q
OUT1
OUT2
(-)
(-)
(1) (2) (3) (4) (5) (6)
Use no-voltage inputs for the event inputs.
The polarity for non-contact inputs is given in parentheses.
(-)
(-) (-)
+
++
(-)
-
+
-
15
E5CC/E5CC-B/E5CC-U
E5CC/E5CC-B/E5CC-U
E5CC-B (Push-In Plus Terminal Blocks)
Note: 1. The application of the terminals depends on the model.
2. Do not wire the terminals that are shown with a gray background.
3. When complying with EMC standards, the cable that connects the sensor must be 30 m or less.
If the cable length exceeds 30 m, compliance with EMC standards will not be possible.
4. Refer to Wiring Precautions for E5
@
C-B (Controllers with Push-In Plus Terminal Blocks) on page 50 for wire specifications and wiring
methods.
5. Common terminals are indicated with asterisks (*). You can use the input power supply and communications common terminals for
crossover wiring. Do not exceed the maximum number of Temperature Controllers given below if you use crossover wiring for the input
power supply.
100 to 240 VAC Controllers: 16 max.
24 VAC/VDC Controllers: 8 max.
23
19
22
1
2
17
18
3
15
24 16
6
8
9
14
21513
20412
11
10
7
8
6
7
8
7
88
Pt
A
B
B
+
-
m
A
-
+
7
6
V
-7
V
+
6
TC
6
I
17
18
19
20
21
22
23
24
EV2
EV1
(-)
EV2
EV1
EV4
EV3
CT1CT1
B(+)
A(-)
RS-485
B(+)
A(-)
RS-485
+
1
2-
OUT1
Q
OUT1
R
1
2
RX QX
17
18
19
20
21
22
23
24
17
18
19
20
21
22
23
24
17
18
19
20
21
22
23
24
13
14
15
16
9
10
11
12
*
*
*
13
14
15
16
*
*
* * * *
*
*
*
(no polarity)
100 to 240 VAC 24 VAC/DC
Auxiliary output 2
Auxiliary output 1
004
Communications
(RS-485), and
Event Inputs 3 and 4
006
Event Inputs
1 and 2, and
Transfer Output
001
Event Inputs 1
and 2, and CT1
002
Communications
(RS-485), CT1
(2) Auxiliary Outputs
(3) Input Power Supply
(5) Sensor (Temperature/Analog) Input
(6) Options
Models with
1 Relay
Output
(1) Control outputs 1
Models with 1
Voltage Output
(for Driving SSR)
Relay outputs
outputs: 250 VAC, 2 A
(resistive load)
Auxiliary outputs 1, 2
(-)
(-)
(-)
(-)
(-)
Use no-voltage inputs for the event inputs.
The polarity for non-contact inputs is given in parentheses.
+
+
-
V
I
Transfer
Output
The E5CC is set for a K-type thermocouple
(input type = 5) by default. An input error
(s.err) will occur if the input type setting does
not agree with the temperature sensor. Check
the input type.
E5CC-@@ 2 @ B M - @@@
(1) (2)
(3) (4)
(5)
(6)
Terminal type
Control output 1
Relay output
250 VAC, 3A
(resistive load)
Voltage output
(for driving SSR)
12 VDC, 21 mA
13
14
15
16
To another E5@C
Wiring Example:
16
E5CC/E5CC-B/E5CC-U
E5CC-U (Plug-in Models)
Note: 1. The application of the terminals depends on the model.
2. Do not wire the terminals that are shown with a gray background.
3. When complying with EMC standards, the cable that connects the sensor must be 30 m or less.
If the cable length exceeds 30 m, compliance with EMC standards will not be possible.
4. Connect M3.5 crimped terminals.
Isolation/Insulation Block Diagrams
E5CC
Models with 3 Auxiliary Outputs
E5CC-B
Models with 2 Auxiliary Outputs
E5CC-U
Models with 2 Auxiliary Outputs
A
B
B
+
250 VAC, 3 A (resistive load)
Control output 1
Auxiliary output 1
Relay output
+
V
mA
+
The E5CC-U is set for a K-type thermocouple (input type =
5) by default. An input error (s.err) will occur if the input
type setting does not agree with the temperature sensor.
Check the input type.
Sensor (temperature/analog) input
Auxiliary output 2:
Control output (cooling
Control output 1:
Control output 1
100 to 240 VAC
24 VAC/DC (no polarity)
RW
CX
Models with 1
Relay Output
QX
+
Models with 1
Voltage Output
(for Driving SSR)
Models with 1
Linear Current
Output
Output 1
QOutput 1
C
Output 1
R
E5CC-UM-000
Control output 1
+
Auxiliary outputs 1, 2
Voltage output (for driving SSR)
12 VDC, 21 mA
Linear current output
4 to 20 mA DC
0 to 20 mA DC
Load: 500 max.
Relay output (three terminals used)
SPDT, 250 VAC, 3 A
(resistive load)
Input power supply
I
VTC
Pt
Sensor input, CT inputs, and remote SP input
Communications and event inputs
Voltage output (for driving SSR),
linear current output, and transfer output
Relay output
Auxiliary outputs 1, 2, 3
: Reinforced insulation
: Functional isolation
Power
supply
Note: Auxiliary outputs 1 to 3 are not insulated.
Sensor input and CT input
Communications and event inputs
Voltage output (for driving SSR) and transfer output
Relay output
Auxiliary outputs 1, 2
: Reinforced insulation
: Functional isolation
Power
supply
Sensor input
Voltage output (for driving SSR) and linear current output
Relay output
Auxiliary outputs 1 and 2
: Reinforced insulation
: Functional isolation
Power
supply
17
E5CC/E5CC-B/E5CC-U
Nomenclature
Dimensions (Unit: mm)
Controllers
Press O Key once to go to Adjustment Level.
Press O Key for at least 3 seconds to go to Initial Setting Level.
Use the M Key to change to another parameter.
Operation indicators No. 1 display
No. 2 display
Temperature unit
Use S Key to change the digit (default setting).
Use the U D Keys to set the
parameter.
Front panel
PV or specified parameter
SP or specified parameter value
Top View of E5CC Top View of E5CC-UTop View of E5CC-B
Top-panel Setup Tool port
E5CC
E5CC-B
E5CC-U
45+0.6
0
45+0.6
0
45+0.6
0
60 min.
(48 × number of units - 2.5)+1.0
0
Panel Cutout
Mounted Separately Group Mounted
48 × 48
Mounting Adapter
(Accessory) Terminal Cover
(E53-COV17)
(Sold separately)
Waterproof Packing
(Accessory)
44.8 × 44.8
4
1
73.1
60
5848.8
44.8 × 44.8
E5CC
Recommended panel thickness is 1 to 5 mm.
Group mounting is not possible in the vertical direction. (Maintain
the specified mounting space between Controllers.)
To mount the Controller so that it is waterproof, insert the water-
proof packing onto the Controller.
When two or more Controllers are mounted, make sure that the
surrounding temperature does not exceed the allowable operating
temperature specified in the specifications.
Use a control panel thickness of 1 to 3 mm if the Y92A-48N and a
USB-Serial Conversion Cable are used together.
The Setup Tool port is on the top of the Temperature Controller.
It is used to connect the Temperature Controller to the computer to use the Setup Tool.
The E58-CIFQ2 USB-Serial Conversion Cable is required to make the connection.
Refer to the instructions that are provided with the USB-Serial Conversion Cable for the connection procedure.
Note:
Do not leave the USB-Serial Conversion Cable connected when you use the Temperature Controller.
(71.4)
67.4
4
(1)
58
Mounting Adapter
(Accessory)
Waterproof Packing
(Accessory)
48 × 48
44.8 × 44.8
44.8 × 44.8
E5CC-B
18
E5CC/E5CC-B/E5CC-U
Accessories (Order Separately)
58
76.8
58.6
414.2
48 × 48 44.8 × 44.8
Mounting Adapter
(Accessory)
45+0.6
0
45+0.6
0
45+0.6
0
60 min.
(48 × number of units - 2.5)+1.0
0
Panel Cutout
Mounted Separately Group Mounted
E5CC-U
Recommended panel thickness is 1 to 5 mm.
Group mounting is not possible in the vertical direction. (Maintain
the specified mounting space between Controllers.)
When two or more Controllers are mounted, make sure that the
surrounding temperature does not exceed the allowable operating
temperature specified in the specifications.
Use a control panel thickness of 1 to 3 mm if the Y92A-48N and a
USB-Serial Conversion Cable are used together.
The Setup Tool port is on the top of the Temperature Controller.
It is used to connect the Temperature Controller to the computer to use the Setup Tool.
The E58-CIFQ2 USB-Serial Conversion Cable is required to make the connection.
Refer to the instructions that are provided with the USB-Serial Conversion Cable for the connection procedure.
Note:
Do not leave the USB-Serial Conversion Cable connected when you use the Temperature Controller.
(2110)
USB connector
(type A plug) Serial connector
LED (SD)
LED (PWR)
LED (RD)
250 1510263
USB-Serial Conversion Cable
E58-CIFQ2
48
48.8
22
9.1
10
44.8
2 3.8
Terminal Cover
(E53-COV23)
Terminal Covers
E53-COV17
Terminal Covers
E53-COV23 (Three Covers provided.)
Y92A-48G UP
P C
34
Twelve, 6.4-dia.
47.7×47.7 48×48
27.6
24.6
16.5
47.4
Terminal Cover (for the P3GA-11 Back-connecting Socket)
Y92A-48G
Note: You can attach the P3GA-11 Back-connecting Socket for finger protection.
19
E5CC/E5CC-B/E5CC-U
Current Transformers
Waterproof Packing
Y92S-P8 (for DIN 48 × 48)
The Waterproof Packing is provided only with the E5CC/E5CC-B.
It is not included with the E5CC-U.
Order the Waterproof Packing separately if it becomes lost or damaged.
The Waterproof Packing can be used to achieve an IP66 degree of protection.
(Deterioration, shrinking, or hardening of the waterproof packing may occur depending on the
operating environment. Therefore, periodic replacement is recommended to ensure the level of
waterproofing specified in IP66. The time for periodic replacement depends on the operating
environment. Be sure to confirm this point at your site.
Consider three years as a rough standard.)
The E5CC-U cannot be waterproofed even if the Waterproof Packing is attached.
E54-CT3 Accessories
Armature
30
21
15 5.8 dia.
25 3
40
10.5
2.8
7.5
10
Two, 3.5 dia.
40 × 40
30
12 dia.
9
2.36 dia.
15
30
Two, M3 (depth: 4)
Approx. 3 dia.
18
(22)
Approx. 6 dia.
Plug
Armature
Lead
E54-CT1
E54-CT3
Connection Example
•Plug
Thru-current (Io) vs. Output Voltage (Eo)
(Reference Values)
E54-CT1
Maximum continuous heater current: 50 A (50/60 Hz)
Number of windings: 400±2
Winding resistance: 18±2
Thru-current (Io) A (r.m.s.)
1 10 100mA 1 10 100
1,000A
100V
Frequency: 50 Hz
Distortion
factor
10%
3%
1%
100Ω
RL=10Ω
10
1
100mV
10
1
100μV
10
1kΩ
Output voltage (Eo) V (r.m.s.)
Thru-current (Io) vs. Output Voltage (Eo)
(Reference Values)
E54-CT3
Maximum continuous heater current: 120 A (50/60 Hz)
(Maximum continuous heater current for an OMRON Dig-
ital Temperature Controller is 50 A.)
Number of windings: 400±2
Winding resistance: 8±0.8
Thru-current (Io) A (r.m.s.)
1 10 100mA 1 10 100
1,000A
100V
Frequency: 50 Hz
Distortion
factor
10%
3%
1%
1kΩ
100Ω
50Ω
RL=10Ω
500Ω
10
1
100mV
10
1
100μV
10
Output voltage (Eo) V (r.m.s.)
20
E5CC/E5CC-B/E5CC-U
Adapter
DIN Track Mounting Adapter
Fixture (Accessory)
69.6 to 77.6
8767 × 67
72 × 72
76
4.7
72 × 72
48 × 48
Panel (1 to 8 mm) Mounting Adapter
Y92F-30
(Accessory)
62.8
To back of the E5CC
2.2 4.7
Y92F-45
Mounted to E5CC
Note: 1. Use this Adapter when the Front Panel has already been prepared for the E5B@.
2. Only black is available.
3. You cannot use the E58-CIFQ2 USB-Serial Conversion Cable if you use the Y92F-45 Adapter. To use the USB-Serial
Conversion Cable to make the settings, do so before you mount the Temperature Controller in the panel.
4. You cannot use it together with the Y92F-49 Adapter that is enclosed with the Controller.
50
61
3.5
38
48
80.5
Mounted to E5CC
Note: This Adapter cannot be used together with the Terminal Cover.
Remove the Terminal Cover to use the Adapter.
Y92F-52
This Adapter is used to mount the
E5CC to a DIN Track.
If you use the Adapter, there is no
need for a plate to mount in the
panel or to drill mounting holes in
the panel.
21
E5CC/E5CC-B/E5CC-U
E5CC-U Wiring Socket
Front-connecting Socket
P2CF-11
Back-connecting Socket
P3GA-11
Watertight Cover
Y92A-48N
Mounting Adapter
Y92F-49
Protective Cover Protective Cover
Y92A-48H
67.6
69
12
21.9 14
(2)
79.2
87.7
The Mounting Adapter is provided with the
Temperature Controller.
Order this Adapter separately if it becomes
lost or damaged.
This Protective Cover is soft type.
It is able to operate the controller with using
this cover.
Y92A-48D Note: This Protective Cover cannot be used
if the Waterproof Packing is installed.
This Protective Cover is hard type.
Please use it for the mis-operation
prevention etc.
40
±0.2
4.5
567
8
4
3
21
9
10 11
70 max.
4
Eleven, M3.5 × 7.5
sems screws 7.8
Two,
4.5-dia.
holes
50 max.
3
31.2 max.
35.4
Mounting Holes
Terminal Layout/Internal Connections
(Top View)
Two, 4.5 dia. mounting holes
Note: 1. A model with finger protection (P2CF-11-E) is also available.
2. You cannot use the P2CF-11 or P2CF-11-E together with the Y92F-45.
Note: Can also be mounted
to a DIN track
5 6 7 8
4
3
2
9
10
11
1
25.6
27dia.
45
45
4.5 16.3 6.2
47
3
8.7
6
Terminal Layout/Internal Connections
(Bottom View)
Eleven, M3.5
sems screws
Note: 1. Using any other sockets will adversely affect accuracy. Use only the specified sockets.
2. A Protective Cover for finger protection (Y92A-48G) is also available.
3. You cannot use the P3GA-11 together with the Y92F-45.
22
Digital Temperature Controller
E5EC/E5EC-B (48 × 96 mm)
Easy to Read Large White PV Display.
Simple to Use, from Model Selection to
Setup and Operation.
Push-In Plus Terminal Block Models
Reduce Wiring Work
Main I/O Functions
Refer to your OMRON website for the most recent
information on applicable safety standards.
4-digit
displays
Sensor Input
Indication Accuracy
Thermocouple input:
±0.3% of PV
Pt input: ±0.2% of PV
Analog input: ±0.2% of FS
Sampling Period
50 ms
Event Inputs
None
2
4
6
Remote SP Input
None
1
Control Output 1
Relay output
Voltage output (for driving SSR)
Linear current output
Control Output 2
Voltage output (for driving SSR)
Relay output
Linear current output
Auxiliary Outputs
4
Transfer Output
None
1
PF (shift) Key
Setup Tool port on front panel
Temperature status display
Simple programming
Independent heating and
cooling PID control
Changed parameter display
Display brightness setting
Three-level Display
PV, SV, and MV displayed
at the same time.
Serial Communications
None
RS-485
Universal input
Thermocouple
Pt
Analog current/voltage
This datasheet is provided as a guideline for selecting products.
Be sure to refer to the following manuals for application precautions and other information required for operation before attempting
to use the product.
E5@C Digital Temperature Controllers User’s Manual (Cat. No. H174)
E5@C Digital Temperature Controllers Communications Manual (Cat. No. H175)
Refer to Safety Precautions on page 45.
48 × 96 mm
Screw Terminal
Blocks
E5EC
*
(E5EC) (E5EC-B)
48 × 96 mm
Push-In Plus
Terminal
Blocks
E5EC-B
*CSA conformance evaluation by UL.
E5EC/E5EC-B
A white LCD PV display with a height of approx. 18 mm for the
E5EC/E5EC-B improves visibility.
High-speed sampling at 50 ms.
Select models with screw terminal blocks or Push-In Plus terminal
blocks to save wiring work.
Short body with depth of only 60 mm. (Screw Terminal Blocks)
Easy connections to a PLC with programless communications.
Use component communications to link Temperature Controllers
to each other.
Tool ports are provided both on the top panel and the front panel.
Set up the Controller without wiring the power supply by
connecting to the computer with a Communications Conversion
Cable (sold separately). Setup is easy with the CX-Thermo (sold separately).
23
Model Number Legend and Standard Models
Model Number Legend
Models with Screw Terminals
E5EC-@@ 4@5M-@@@ (Example: E5EC-RX4A5M-000)
−−
−−−
ABCDEF
*1. The options that can be selected depend on the type of control output.
*2. The control output cannot be used as a transfer output.
*3. A model with four auxiliary outputs must be selected.
Heating and Cooling Control
l Using Heating and Cooling Control
A Control Output Assignment
If there is no control output 2, an auxiliary output is used as the cooling control output.
If there is a control output 2, the two control outputs are used for heating and cooling.
(It does not matter which output is used for heating and which output is used for cooling.)
B Control
If PID control is used, you can set PID control separately for heating and cooling.
This allows you to handle control systems with different heating and cooling response characteristics.
Model
A B C D E F
Meaning
Control outputs
1 and 2
No. of auxil-
iary out-
puts
Power
supply
voltage
Terminal
type
Input
type Options
E5EC 48 × 96 mm
Control output 1 Control output 2
RX Relay output None
QX Voltage output
(for driving SSR) None
*2 CX Linear current output None
QQ Voltage output
(for driving SSR)
Voltage output
(for driving SSR)
QR Voltage output
(for driving SSR) Relay output
RR Relay output Relay output
*2 CC Linear current output Linear current out-
put
*2 CQ Linear current output Voltage output
(for driving SSR)
PR Position-proportional relay output Position-proportion-
al relay output
*3 44 (auxiliary outputs 1 and 2 with same common and auxilia-
ry outputs 3 and 4 with same common)
A 100 to 240 VAC
D 24 VAC/DC
5 Screw terminals (with cover)
Control outputs 1 and 2
M Universal input
Option
selection
conditions
*1
For RX,
QX, QQ,
QR, RR, or
CQ
For CX or
CC For PR
HB alarm
and
HS alarm
Communications
Event
inputs
Remote
SP Input
Transfer
output
Selectable Selectable Selectable 000 --- --- --- --- ---
Selectable Selectable 004 --- RS-485 2 --- ---
Selectable 005 --- --- 4 --- ---
Selectable 009
2
(for 3-phase
heaters)
RS-485 2 --- ---
Selectable 010 1 --- 4 --- ---
Selectable 011 1 --- 6 Provided. Provided.
Selectable 013 --- --- 6 Provided. Provided.
Selectable Selectable 014 --- RS-485 4 Provided. Provided.
E5EC/E5EC-B
24
E5EC/E5EC-B
List of Models
E5EC (1/8 DIN)
Input Output Terminal
Type Fixed Option Alarms 100-240 VAC
models 24 VAC/VDC
models
Temp &
Analog
Out 1: Relay,
Out 2: None
Screw
Terminals
---
4
Relays
E5EC-RX4A5M-000 E5EC-RX4D5M-000
Communication, 3 Phase Heater Alarm,
Event Input 2 E5EC-RX4A5M-009 E5EC-RX4D5M-009
Heater Burnout and SSR defect detection,
Event Input 4 E5EC-RX4A5M-010 E5EC-RX4D5M-010
Heater Burnout and SSR defect detection,
Event Input 6, Remote SP, Transfer Output E5EC-RX4A5M-011 E5EC-RX4D5M-011
Out 1: Voltage,
Out 2: None
--- E5EC-QX4A5M-000 E5EC-QX4D5M-000
Communication, 3 Phase Heater Alarm,
Event Input 2 E5EC-QX4A5M-009 E5EC-QX4D5M-009
Heater Burnout and SSR defect detection,
Event Input 4 E5EC-QX4A5M-010 E5EC-QX4D5M-010
Heater Burnout and SSR defect detection,
Event Input 6, Remote SP, Transfer Output E5EC-QX4A5M-011 E5EC-QX4D5M-011
Out 1: Linear
Current,
Out 2: None
--- E5EC-CX4A5M-000 E5EC-CX4D5M-000
Communication, E vent Input 2 E5EC-CX4A5M-004 E5EC-CX4D5M-004
Event Input 4 E5EC-CX4A5M-005 E5EC-CX4D5M-005
Event Input 6, Remote SP, Transfer Output E5EC-CX4A5M-013 E5EC-CX4D5M-013
Communication, E vent Input 4, Remote SP,
Transfer Output E5EC-CX4A5M-014 E5EC-CX4D5M-014
Out 1: Voltage,
Out 2: Voltage
--- E5EC-QQ4A5M-000 E5EC-QQ4D5M-000
Communication, 3 Phase Heater Alarm,
Event Input 2 E5EC-QQ4A5M-009 E5EC-QQ4D5M-009
Heater Burnout and SSR defect detection,
Event Input 4 E5EC-QQ4A5M-010 E5EC-QQ4D5M-010
Heater Burnout and SSR defect detection,
Event Input 6, Remote SP, Transfer Output E5EC-QQ4A5M-011 E5EC-QQ4D5M-011
Out 1: Voltage,
Out 2: Relay
--- E5EC-QR4A5M-000 E5EC-QR4D5M-000
Communication, 3 Phase Heater Alarm,
Event Input 2 E5EC-QR4A5M-009 E5EC-QR4D5M-009
Heater Burnout and SSR defect detection,
Event Input 4 E5EC-QR4A5M-010 E5EC-QR4D5M-010
Heater Burnout and SSR defect detection,
Event Input 6, Remote SP, Transfer Output E5EC-QR4A5M-011 E5EC-QR4D5M-011
Out 1: Relay,
Out 2: Relay
--- E5EC-RR4A5M-000 E5EC-RR4D5M-000
Communication, 3 Phase Heater Alarm,
Event Input 2 E5EC-RR4A5M-009 E5EC-RR4D5M-009
Heater Burnout and SSR defect detection,
Event Input 4 E5EC-RR4A5M-010 E5EC-RR4D5M-010
Heater Burnout and SSR defect detection,
Event Input 6, Remote SP, Transfer Output E5EC-RR4A5M-011 E5EC-RR4D5M-011
Out 1: Linear
Current,
Out 2: Linear
Current
--- E5EC-CC4A5M-000 E5EC-CC4D5M-000
Communication, E vent Input 2 E5EC-CC4A5M-004 E5EC-CC4D5M-004
Event Input 4 E5EC-CC4A5M-005 E5EC-CC4D5M-005
Event Input 6, Remote SP, Transfer Output E5EC-CC4A5M-013 E5EC-CC4D5M-013
Communication, E vent Input 4, Remote SP,
Transfer Output E5EC-CC4A5M-014 E5EC-CC4D5M-014
Out 1: Linear
Current,
Out 2: Voltage
--- E5EC-CQ4A5M-000 E5EC-CQ4D5M-000
Communication, 3 Phase Heater Alarm,
Event Input 2 E5EC-CQ4A5M-009 E5EC-CQ4D5M-009
Heater Burnout and SSR defect detection,
Event Input 4 E5EC-CQ4A5M-010 E5EC-CQ4D5M-010
Heater Burnout and SSR defect detection,
Event Input 6, Remote SP, Transfer Output E5EC-CQ4A5M-011 E5EC-CQ4D5M-011
25
E5EC/E5EC-B
26
Model Number Legend
Models with Push-In Plus Terminal Blocks
E5EC-@@ @ @ BM-@@@ (Example: E5EC-RX4ABM-000)
−−
−−−
ABCDEF
Heating and Cooling Control
Using Heating and Cooling Control
A Control Output Assignment
An auxiliary output is used as the cooling control output.
B Control
If PID control is used, you can set PID control separately for heating and cooling.
This allows you to handle control systems with different heating and cooling response characteristics.
Model
A B C D E F
Meaning
Control
outputs
1 and 2
No. of
auxiliary
outputs
Power
supply
voltage
Terminal
type Input type Options
E5EC 48 × 96 mm
Control output 1 Control output 2
RX Relay output None
QX Voltage output
(for driving SSR) None
22 independent points
44 (auxiliary outputs 1 and 2 with same common and auxiliary
outputs 3 and 4 with same common)
A 100 to 240 VAC
D 24 VAC/DC
B Push-in plus terminal blocks
M Universal input
HB alarm
and
HS alarm
Communications
Event
inputs
Remote
SP Input
Transfer
output
000 --- --- --- --- ---
008 1 RS-485 2 --- ---
010 1 --- 4 --- ---
011 1 --- 6 Provided. Provided.
List of Models
Controllers with Position-Proportional Relay Outputs
Input Output Terminal
Type Fixed Option Alarms 100-240 VAC
models 24 VAC/VDC
models
Temp &
Analog
Out 1: Position-
Proportional
Relay,
Out 2: Position-
Proportional
Relay
Screw
Terminals
---
4
Relays
E5EC-PR4A5M-000 E5EC-PR4D5M-000
Communication, E vent Input 2 E5EC-PR4A5M-004 E5EC-PR4D5M-004
Communication, E vent Input 4, Remote SP,
Transfer Output E5EC-PR4A5M-014 E5EC-PR4D5M-014
--- E5AC-PR4A5M-000 E5AC-PR4D5M-000
Communication, E vent Input 2 E5AC-PR4A5M-004 E5AC-PR4D5M-004
Communication, E vent Input 4, Remote SP,
Transfer Output E5AC-PR4A5M-014 E5AC-PR4D5M-014
E5EC/E5EC-B
27
List of Models
Controllers with Push-In Plus Wiring Terminals
Input Output Fixed option Alarms AC110-240V
models AC/DC24V
models
Temperature
Analog
Out1: Relay
Out2: None
--
2 relays,
individual
commons
E5EC-RX2ABM-000 E5EC-RX2DBM-000
Event Input 2, RS485 Communication,
Heater Burnout SSR defect detection E5EC-RX2ABM-008 E5EC-RX2DBM-008
Event Input 4
Heater Burnout SSR defect detection E5EC-RX2ABM-010 E5EC-RX2DBM-010
Heater Burnout SSR defect detection,
Remote set point input, Transfer output E5EC-RX2ABM-011 E5EC-RX2DBM-011
Out1: Voltage
(pulse)
Out2: None
-- E5EC-QX2ABM-000 E5EC-QX2DBM-000
Event Input 2, RS485 Communication,
Heater Burnout SSR defect detection E5EC-QX2ABM-008 E5EC-QX2DBM-008
Event Input 4
Heater Burnout SSR defect detection E5EC-QX2ABM-010 E5EC-QX2DBM-010
Heater Burnout SSR defect detection,
Remote set point input, Transfer output E5EC-QX2ABM-011 E5EC-QX2DBM-011
Out1: Relay
Out2: None
--
4 relays, 2
commons
E5EC-RX4ABM-000 E5EC-RX4DBM-000
Event Input 2, RS485 Communication,
Heater Burnout SSR defect detection E5EC-RX4ABM-008 E5EC-RX4DBM-008
Event Input 4
Heater Burnout SSR defect detection E5EC-RX4ABM-010 E5EC-RX4DBM-010
Heater Burnout SSR defect detection,
Remote set point input, Transfer output E5EC-RX4ABM-011 E5EC-RX4DBM-011
Out1: Voltage
(pulse)
Out2: None
-- E5EC-QX4ABM-000 E5EC-QX4DBM-000
Event Input 2, RS485 Communication,
Heater Burnout SSR defect detection E5EC-QX4ABM-008 E5EC-QX4DBM-008
Event Input 4
Heater Burnout SSR defect detection E5EC-QX4ABM-010 E5EC-QX4DBM-010
Heater Burnout SSR defect detection,
Remote set point input, Transfer output E5EC-QX4ABM-011 E5EC-QX4DBM-011
28
Optional Products (Order Separately)
USB-Serial Conversion Cable
Communications Conversion Cable
Note: Always use this product together with the E58-CIFQ2.
This Cable is used to connect to the front-panel Setup Tool
port.
Terminal Covers
Note: The Terminal Covers E53-COV24 are provided with the Digital
Temperature Controller.
Waterproof Packing
Note: This Waterproof Packing is provided with the Digital
Temperature Controller.
Waterproof Cover
Front Port Cover
Note: This Front Port Cover is provided with the Digital Temperature
Controller.
Current Transformers (CTs)
CX-Thermo Support Software
Note: CX-Thermo version 4.5 or higher is required for the E5EC.
For the system requirements for the CX-Thermo, refer to
information on the EST2-2C-MV4 on the OMRON website
(www.omron247.com).
Model
E58-CIFQ2
Model
E58-CIFQ2-E
Model
E53-COV24 (3pcs)
Applicable Controller Model
Y92S-P9
Applicable Controller Model
Y92A-49N
Model
Y92S-P7
Hole diameter Model
5.8 mm E54-CT1
12.0 mm E54-CT3
Model
EST2-2C-MV4
Mounting Adapter
Note: This Mounting Adapter is provided with the Digital Temperature
Controller.
Model
Y92F-51 (2 pieces)
E5EC/E5EC-B
E5EC/E5EC-B
E5EC/E5EC-B
Specifications
Ratings
* This function is not supported by the E5EC-B. Refer to Model Number Legend on page 26.
Power supply voltage A in model number: 100 to 240 VAC, 50/60 Hz
D in model number: 24 VAC, 50/60 Hz; 24 VDC
Operating voltage range 85 to 110% of rated supply voltage
Power consumption E5EC/
E5EC-B
Models with option selection of 000: 6.6 VA max. at 100 to 240 VAC, and 4.1 VA max. at 24 VAC or
2.3 W max. at 24 VDC
All other models: 8.3 VA max. at 100 to 240 VAC, and 5.5 VA max. at 24 VAC or 3.2 W max. at 24 VDC
Sensor input
Temperature input
Thermocouple: K, J, T, E, L, U, N, R, S, B, W, or PL II
Platinum resistance thermometer: Pt100 or JPt100
Infrared temperature sensor (ES1B): 10 to 70°C, 60 to 120°C, 115 to 165°C, or 140 to 260°C
Analog input
Current input: 4 to 20 mA or 0 to 20 mA
Voltage input: 1 to 5 V, 0 to 5 V, or 0 to 10 V
Input impedance Current input: 150 max., Voltage input: 1 M min.
(Use a 1:1 connection when connecting the ES2-HB/THB.)
Control method ON/OFF or 2-PID control (with auto-tuning)
Control
output
Relay output SPST-NO, 250 VAC, 5 A (resistive load), electrical life: 100,000 operations,
minimum applicable load: 5 V, 10 mA (reference value)
Voltage output
(for driving SSR)
Output voltage: 12 VDC ±20% (PNP), max. load current: 40 mA, with short-circuit protection circuit
(The maximum load current is 21 mA for models with two control outputs.)
Linear current output *4 to 20 mA DC/0 to 20 mA DC, load: 500 max., resolution: approx. 10,000
Auxiliary
output
Number of outputs E5EC: 4
E5EC-B: 2 or 4 (depends on model)
Output specifications
SPST-NO. relay outputs, 250 VAC, Models with 2 outputs: 3 A (resistive load),
Models with 4 outputs: 2 A (resistive load),
Electrical life: 100,000 operations, Minimum applicable load: 10 mA at 5 V (reference value)
Event input
Number of inputs 2, 4 or 6 (depends on model)
External contact input
specifications
Contact input: ON: 1 k max., OFF: 100 k min.
Non-contact input: ON: Residual voltage: 1.5 V max., OFF: Leakage current: 0.1 mA max.
Current flow: Approx. 7 mA per contact
Transfer
output
Number of outputs 1 (only on models with a transfer output)
Output specifications Current output: 4 to 20 mA DC, Load: 500 max., Resolution: Approx. 10,000
Linear voltage output: 1 to 5 VDC, load: 1 k min., Resolution: Approx. 10,000
Remote SP input Current input: 4 to 20 mA DC or 0 to 20 mA DC (input impedance: 150 max.)
Voltage input: 1 to 5 V, 0 to 5 V, or 0 to 10 V (input impedance: 1 M min.)
Potentiometer input *100 to 10 k
Setting method Digital setting using front panel keys
Indication method
11-segment digital display and individual indicators
Character height: E5EC/E5EC-B: PV: 18.0 mm, SV: 11.0 mm, MV: 7.8 mm
E5AC: PV: 25.0 mm, SV: 15.0 mm, MV: 9.5 mm
Three displays Contents: PV/SV/MV, PV/SV/Multi-SP, or PV/SV/Remaining soak time, etc
Numbers of digits: 4 digits each for PM, SV, and MV displays
Multi SP Up to eight set points (SP0 to SP7) can be saved and selected using the event inputs, key operations,
or serial communications.
Bank switching None
Other functions
Manual output, heating/cooling control, loop burnout alarm, SP ramp, other alarm functions, heater
burnout (HB) alarm (including SSR failure (HS) alarm), 40% AT, 100% AT, MV limiter, input digital
filter, self tuning, robust tuning, PV input shift, run/stop, protection functions, extraction of square root,
MV change rate limit, logic operations, temperature status display, simple programming, moving
average of input value, and display brightness setting
Ambient operating temperature 10 to 55°C (with no condensation or icing), For 3-year warranty: 10 to 50°C with standard mounting
(with no condensation or icing)
Ambient operating humidity 25 to 85%
Storage temperature -25 to 65°C (with no condensation or icing)
Altitude 2,000 m max.
Recommended fuse T2A, 250 VAC, time-lag, low-breaking capacity
Installation environment Overvoltage category II, Pollution Degree 2 (EN/IEC/UL 61010-1)
E5EC/E5EC-B
29
E5EC/E5EC-B
Input Ranges
Thermocouple/Platinum Resistance Thermometer (Universal inputs)
Shaded settings are the default settings.
The applicable standards for the input types are as follows:
K, J, T, E, N, R, S, B: JIS C 1602-1995, IEC 60584-1 JPt100: JIS C 1604-1989, JIS C 1606-1989
L: Fe-CuNi, DIN 43710-1985 Pt100: JIS C 1604-1997, IEC 60751
U: Cu-CuNi, DIN 43710-1985 PL II: According to Platinel II electromotive force charts from BASF (previously Engelhard)
W: W5Re/W26Re, ASTM E988-1990
Analog input
Sensor
type
Platinum resistance
thermometer Thermocouple Infrared temperature
sensor
Sensor
specification
Pt100 JPt100 K J T E L U N R S B W
PLII
10 to
70°C
60 to
120°C
115 to
165°C
140 to
260°C
2300
1800
1700
1600
1500
1400
1300
1200
1100
1000
900
800
700
600
500
400
300
200
100
-100
-200
2300
1800
1700 1700
1300 1300 1300
850 850 850
600
500.0 500.0 500.0
400.0 400 400.0 400 400.0
260
120 165
100.0 100.0 90
100
0.0 0.0 00 000000
-20.0 -100 -20.0 -100
-200 -199.9 -199.9 -200 -200 -199.9 -200 -200 -199.9 -200
Set value 0123456789101112131415161718192021222324
Input type Current Voltage
Input
specification
4 to 20 mA 0 to 20 mA
1 to 5 V 0 to 5 V 0 to 10 V
Setting range
Usable in the following ranges by scaling:
-1999 to 9999, -199.9 to 999.9,
-19.99 to 99.99 or -1.999 to 9.999
Set value 25 26 27 28 29
Temperature range (°C)
30
E5EC/E5EC-B
Alarm Types
Each alarm can be independently set to one of the following 19 alarm types. The default is 2: Upper limit. (see note.)
Auxiliary outputs are allocated for alarms. ON delays and OFF delays (0 to 999 s) can also be specified.
Note:
In the default settings for models with HB or HS alarms, alarm 1 is set to a heater alarm (HA) and the Alarm Type 1 parameter is not displayed.
To use alarm 1, set the output assignment to alarm 1.
Set
value
Alarm type
Alarm output operation
Description of function
When alarm value X
is positive
When alarm value X
is negative
0 Alarm function OFF Output OFF No alarm
1 Upper- and lower-limit *1*2
Set the upward deviation in the set point for the alarm upper
limit (H) and the lower deviation in the set point for the alarm
lower limit (L). The alarm is ON when the PV is outside this
deviation range.
2
(default) Upper-limit
Set the upward deviation in the set point by setting the alarm
value (X). The alarm is ON when the PV is higher than the
SP by the deviation or more.
3 Lower-limit
Set the downward deviation in the set point by setting the
alarm value (X). The alarm is ON when the PV is lower than
the SP by the deviation or more.
4Upper- and lower-limit
range *1*3
Set the upward deviation in the set point for the alarm upper
limit (H) and the lower deviation in the set point for the alarm
lower limit (L). The alarm is ON when the PV is inside this
deviation range.
5
Upper- and lower-limit with
standby sequence
*
1
*4A standby sequence is added to the upper- and lower-limit
alarm (1). *6
6Upper-limit with standby
sequence A standby sequence is added to the upper-limit alarm (2). *6
7Lower-limit with standby
sequence A standby sequence is added to the lower-limit alarm (3). *6
8Absolute-value upper-
limit
The alarm will turn ON if the process value is larger than the
alarm value (X) regardless of the set point.
9 Absolute-value lower-limit The alarm will turn ON if the process value is smaller than the
alarm value (X) regardless of the set point.
10
Absolute-value upper-
limit with standby
sequence
A standby sequence is added to the absolute-value upper-
limit alarm (8). *6
11 Absolute-value lower-limit
with standby sequence
A standby sequence is added to the absolute-value lower-
limit alarm (9). *6
12
LBA (alarm 1 type only)
-*7
13 PV change rate alarm - *8
14 SP absolute-value
upper-limit alarm
This alarm type turns ON the alarm when the set point (SP)
is higher than the alarm value (X).
15 SP absolute-value
lower-limit alarm
This alarm type turns ON the alarm when the set point (SP)
is lower than the alarm value (X).
16 MV absolute-value
upper-limit alarm *9
Standard Control Standard Control
This alarm type turns ON the alarm when the manipulated
variable (MV) is higher than the alarm value (X).
Heating/Cooling
Control (Heating MV) Heating/Cooling
Control (Heating MV)
Always ON
17 MV absolute-value
lower-limit alarm *9
Standard Control Standard Control
This alarm type turns ON the alarm when the manipulated
variable (MV) is lower than the alarm value (X).
Heating/Cooling
Control (Cooling MV) Heating/Cooling
Control (Cooling MV)
Always ON
18 RSP absolute-value
upper-limit alarm *10
This alarm type turns ON the alarm when the remote SP
(RSP) is higher than the alarm value (X).
19 RSP absolute-value
lower-limit alarm *10
This alarm type turns ON the alarm when the remote SP
(RSP) is lower than the alarm value (X).
ON
OFF PV
SP
LH
SP
X
ON
OFF PV
SP
X
ON
OFF PV
SP
X
ON
OFF PV
SP
X
ON
OFF PV
SP
LH
ON
OFF PV
SP
LH
ON
OFF PV
*
5
SP
X
ON
OFF PV
SP
X
ON
OFF PV
SP
X
ON
OFF PV
SP
X
ON
OFF PV
0
X
ON
OFF PV
0
X
ON
OFF PV
0
X
ON
OFF PV
0
X
ON
OFF PV
0
X
ON
OFF PV
0
X
ON
OFF PV
0
X
ON
OFF PV
0
X
ON
OFF PV
0
X
ON
OFF SP
0
X
ON
OFF SP
0
X
ON
OFF SP
0
X
ON
OFF SP
0
X
ON
OFF MV
0
X
ON
OFF MV
0
X
ON
OFF MV
0
X
ON
OFF MV
0
X
ON
OFF MV
0
X
ON
OFF MV
0
X
ON
OFF RSP 0
X
ON
OFF RSP
0
X
ON
OFF RSP 0
X
ON
OFF RSP
31
E5EC/E5EC-B
*1. With set values 1, 4 and 5, the upper and lower limit values can
be set independently for each alarm type, and are expressed as
“L” and “H.”
*2. Set value: 1, Upper- and lower-limit alarm
*3. Set value: 4, Upper- and lower-limit range
*4. Set value: 5, Upper- and lower-limit with standby sequence
For Upper- and Lower-Limit Alarm Described Above *2
Case 1 and 2
Always OFF when the upper-limit and lower-limit hysteresis overlaps.
Case 3: Always OFF
*5. Set value: 5, Upper- and lower-limit with standby sequence
Always OFF when the upper-limit and lower-limit hysteresis
overlaps.
*6. Refer to the E5
@
C Digital Temperature Controllers User's Manual
(Cat. No. H174) for information on the operation of the standby
sequence.
*7. Refer to the E5
@
C Digital Temperature Controllers User's Manual
(Cat. No. H174) for information on the loop burnout alarm (LBA).
This setting cannot be used with a position-proportional model.
*8. Refer to the E5
@
C Digital Temperature Controllers User's Manual
(Cat. No. H174) for information on the PV change rate alarm.
*9. When heating/cooling control is performed, the MV absolute
upper limit alarm functions only for the heating operation and the
MV absolute lower limit alarm functions only for the cooling
operation.
*10.This value is displayed only when a remote SP input is used. It
functions in both Local SP Mode and Remote SP Mode.
LHSP
Case 1
LHSP
Case 2
LHSP
LHSP
LHSP
Case 3 (Always ON)
H<0, L<0
H<0, L>0
|H| |L|
H>0, L<0
|H| |L|
H<0, L>0
|H| < |L|
H>0, L<0
|H| > |L|
LHSP
Case 1
LHSP
Case 2
LHSP
L
L
HSP
HSP
Case 3 (Always OFF)
H<0, L>0
|H| < |L|
H>0, L<0
|H| > |L|
H<0, L<0
H<0, L>0
|H| |L|
H>0, L<0
|H| |L|
32
E5EC/E5EC-B
Characteristics
*1.
The indication accuracy of K thermocouples in the -200 to 1,300°C range, T and N thermocouples at a temperature of -100°C max., and U and
L thermocouples at any temperatures is
±
2°C
±
1 digit max. The indication accuracy of the B thermocouple at a temperature of 400°C max.
is not specified. The indication accuracy of B thermocouples at a temperature of 400 to 800°C is
±
3°C max. The indication accuracy of the R
and S thermocouples at a temperature of 200°C max. is
±
3°C
±
1 digit max. The indication accuracy of W thermocouples is (
±
0.3% of PV or
±
3
°
C,
whichever is greater)
±
1 digit max. The indication accuracy of PL II thermocouples is (
±
0.3% of PV or
±
2°C, whichever is greater)
±
1 digit max.
*2. Ambient temperature: -10°C to 23°C to 55°C, Voltage range: -15% to 10% of rated voltage
*3. K thermocouple at -100°C max.: ±10°C max.
*4. The unit is determined by the setting of the Integral/Derivative Time Unit parameter.
*5. External communications (RS-485) and USB-serial conversion cable communications can be used at the same time.
*6. Refer to your OMRON website for the most recent information on applicable models.
*7. Refer to information on maritime standards in Shipping Standards on page 110 for compliance with Lloyd's Standards.
*8. Industrial electromagnetic environment (EN/IEC 61326-1 Table 2)
Indication accuracy
(at the ambient temperature of
23°C)
Thermocouple: (±0.3% of indication value or ±1°C, whichever is greater) ±1 digit max. *1
Platinum resistance thermometer: (
±
0.2% of indication value or
±
0.8°C, whichever is greater)
±
1 digit max.
Analog input: ±0.2% FS ±1 digit max.
CT input: ±5% FS ±1 digit max.
Potentiometer input: ±5% FS ±1 digit max.
Transfer output accuracy ±0.3% FS max.
Remote SP Input Type ±0.2% FS ±1 digit max.
Influence of temperature *2
Thermocouple input (R, S, B, W, PL II): (
±
1% of indication value or
±
10°C, whichever is greater)
±
1 digit max.
Other thermocouple input: (±1% of indication value or ±4°C, whichever is greater) ±1 digit max. *3
Platinum resistance thermometer: (±1% of indication value or ±2°C, whichever is greater) ±1 digit max.
Analog input: ±1%FS ±1 digit max.
CT input: ±5% FS ±1 digit max.
Remote SP input: ±1% FS ±1 digit max.
Influence of voltage *2
Influence of EMS.
(at EN 61326-1)
Input sampling period 50ms
Hysteresis Temperature input: 0.1 to 999.9°C or °F (in units of 0.1°C or°F)
Analog input: 0.01% to 99.99% FS (in units of 0.01% FS)
Proportional band (P) Temperature input: 0.1 to 999.9°C or °F (in units of 0.1°C or °F)
Analog input: 0.1 to 999.9% FS (in units of 0.1% FS)
Integral time (I)
Standard, heating/cooling, or Position-proportional (Close): 0 to 9999 s (in units of 1 s), 0.0 to 999.9 s (in units of 0.1 s)
Position-proportional (Floating): 1 to 9999 s (in units of 1 s), 0.1 to 999.9 s (in units of 0.1 s)*4
Derivative time (D) 0 to 9999 s (in units of 1 s), 0.0 to 999.9 s (in units of 0.1 s) *4
Proportional band (P) for cooling Temperature input: 0.1 to 999.9°C or °F (in units of 0.1°C or °F)
Analog input: 0.1 to 999.9% FS (in units of 0.1% FS)
Integral time (I) for cooling 0 to 9999 s (in units of 1 s), 0.0 to 999.9 s (in units of 0.1 s) *4
Derivative time (D) for cooling 0 to 9999 s (in units of 1 s), 0.0 to 999.9 s (in units of 0.1 s) *4
Control period 0.1, 0.2, 0.5, 1 to 99 s (in units of 1 s)
Manual reset value 0.0 to 100.0% (in units of 0.1%)
Alarm setting range -1999 to 9999 (decimal point position depends on input type)
Influence of signal source
resistance
Thermocouple: 0.1°C/ max. (100 max.)
Platinum resistance thermometer: 0.1°C/ max. (10 max.)
Insulation resistance 20 M min. (at 500 VDC)
Dielectric strength 3,000 VAC, 50/60 Hz for 1 min between terminals of different charge
Vibration Malfunction 10 to 55 Hz, 20 m/s2 for 10 min each in X, Y, and Z directions
Resistance 10 to 55 Hz, 20 m/s2 for 2 hrs each in X, Y, and Z directions
Shock Malfunction 100 m/s2, 3 times each in X, Y, and Z directions
Resistance 300 m/s2, 3 times each in X, Y, and Z directions
Weight E5EC/E5EC-B: Controller: Approx. 210 g, Adapter: Approx. 4 g × 2
Degree of protection Front panel: IP66, Rear case: IP20, Terminals: IP00
Memory protection Non-volatile memory (number of writes: 1,000,000 times)
Setup Tool E5EC: CX-Thermo version 4.5 or higher
E5EC-B: CX-Thermo version 4.65 or higher
Setup Tool port
E5EC/E5EC-B top panel: An E58-CIFQ2 USB-Serial Conversion Cable is used to connect to a USB
port on the computer.*5
E5EC/E5EC-B front panel: An E58-CIFQ2 USB-Serial Conversion Cable and E58-CIFQ2-E Conversion
Cable are used together to connect to a USB port on the computer.*5
Standards Approved standards cULus: UL 61010-1/CSA C22.2 No.61010-1, Korean wireless regulations (Radio law: KC Mark) (Some
models only.) *
6
, Lloyd's standards *7
Conformed standards EN 61010-1 (IEC 61010-1)
EMC
EMI EN 61326-1 *8
Radiated Interference Electromagnetic Field Strength: EN 55011 Group 1, class A
Noise Terminal Voltage: EN 55011 Group 1, class A
EMS: EN 61326-1 *8
ESD Immunity: EN 61000-4-2
Electromagnetic Field Immunity: EN 61000-4-3
Burst Noise Immunity: EN 61000-4-4
Conducted Disturbance Immunity: EN 61000-4-6
Surge Immunity: EN 61000-4-5
Voltage Dip/Interrupting Immunity: EN 61000-4-11
33
E5EC/E5EC-B
USB-Serial Conversion Cable
Windows is a registered trademark of Microsoft Corporation in the
United States and or other countries.
*1. CX-Thermo version 4.65 or higher runs on Windows 10.
*2. Use a high-power port for the USB port.
Note:
A driver must be installed on the computer. Refer to the
Instruction
Manual
included with the Cable for the installation procedure.
Communications Specifications
*The baud rate, data bit length, stop bit length, and vertical parity can
be individually set using the Communications Setting Level.
Communications Functions
MELSEC is a registered trademark of Mitsubishi Electric Corporation.
KEYENCE is a registered trademark of Keyence Corporation.
*1. A Temperature Controller with version 1.1 or higher is required.
A Temperature Controller with version 2.1 or higher is required for
the FX Series or the KV Series.
*2. Both the programless communications and the component
communications support the copying.
Current Transformer (Order Separately) Ratings
Heater Burnout Alarms and SSR Failure Alarms
*1. For heater burnout alarms, the heater current will be measured
when the control output is ON, and the output will turn ON if the
heater current is lower than the set value (i.e., heater burnout
detection current value).
*2. For SSR failure alarms, the heater current will be measured when
the control output is OFF, and the output will turn ON if the heater
current is higher than the set value (i.e., SSR failure detection
current value).
*3. The value is 30 ms for a control period of 0.1 s or 0.2 s.
*4. The value is 35 ms for a control period of 0.1 s or 0.2 s.
Electrical Life Expectancy Curve for
Relays (Reference Values)
Applicable OS Windows XP/Vista/7/8/10 *1
Applicable software
E5EC:CX-Thermo version 4.5 or higher
E5EC-B:CX-Thermo version 4.65 or higher
Applicable models
E5
@
C Series
USB interface standard
Conforms to USB Specification 2.0.
DTE speed 38,400 bps
Connector
specifications
Computer: USB (type A plug)
Digital Temperature Controller:
Special serial connector
Power supply
Bus power (Supplied from USB host controller.)
*
2
Power supply voltage
5 VDC
Current consumption
450 mA max.
Output voltage
4.7±0.2 VDC
(Supplied from USB-Serial Conversion Cable
to the Digital Temperature Controller.)
Output current
250 mA max.
(Supplied from USB-Serial Conversion Cable
to the Digital Temperature Controller.)
Ambient operating
temperature 0 to 55°C (with no condensation or icing)
Ambient operating
humidity 10% to 80%
Storage temperature -20 to 60°C (with no condensation or icing)
Storage humidity 10% to 80%
Altitude 2,000 m max.
Weight
Approx. 120 g
Transmission line
connection method RS-485: Multidrop
Communications RS-485 (two-wire, half duplex)
Synchronization method
Start-stop synchronization
Protocol CompoWay/F, or Modbus
Baud rate *9600, 19200, 38400, or 57600 bps
Transmission code ASCII
Data bit length *7 or 8 bits
Stop bit length *1 or 2 bits
Error detection
Vertical parity (none, even, odd)
Block check character (BCC) with
CompoWay/F or CRC-16 Modbus
Flow control None
Interface RS-485
Retry function None
Communications buffer
217 bytes
Communications
response wait time
0 to 99 ms
Default: 20 ms
Programless
communications *1
You can use the memory in the PLC to read and write
E5
@
C parameters, start and stop operation, etc. The
E5
@
C automatically performs communications with
PLCs. No communications programming is required
.
Number of connected Digital Temperature Controllers:
32 max. (Up to 16 for the FX Series)
Applicable PLCs
OMRON PLCs
CS Series, CJ Series, or CP Series
Mitsubishi Electric PLCs
MELSEC Q Series, L Series, or FX Series
(compatible with the FX2 or FX3 (excluding the FX1S))
KEYENCE PLCs
KEYENCE KV Series
Component
Communications *1
When Digital Temperature Controllers are
connected, set points and RUN/STOP
commands can be sent from the Digital
Temperature Controller that is set as the
master to the Digital Temperature
Controllers that are set as slaves.
Slope and offsets can be set for the set point.
Number of connected Digital Temperature
Controllers: 32 max. (including master)
Copying *2
When Digital Temperature Controllers are
connected, the parameters can be copied
from the Digital Temperature Controller that is
set as the master to the Digital Temperature
Controllers that are set as slaves.
Dielectric strength 1,000 VAC for 1 min
Vibration resistance 50 Hz, 98 m/s2
Weight E54-CT1: Approx. 11.5 g,
E54-CT3: Approx. 50 g
Accessories
(E54-CT3 only)
Armatures (2)
Plugs (2)
CT input (for heater
current detection)
Models with detection for singlephase
heaters: One input
Models with detection for singlephase or
three-phase heaters: Two inputs
Maximum heater
current 50 A AC
Input current
indication accuracy ±5% FS ±1 digit max.
Heater burnout alarm
setting range
*
1
0.1 to 49.9 A (in units of 0.1 A)
Minimum detection ON time: 100 ms *3
SSR failure alarm
setting range *2
0.1 to 49.9 A (in units of 0.1 A)
Minimum detection OFF time: 100 ms *4
500
300
100
50
30
10
5
3
1
0 1 2 3 4 5 6
Switching current (A)
E5EC/E5EC-B
250 VAC, 30 VDC
(resistive load)
cosφ = 1
Life (× 10
4
operations)
34
External Connections
E5EC/E5AC (Screw Terminal Blocks)
The E5EC is set for a K-type thermocouple (input
type = 5) by default. An input error (s.err) will occur
if the input type setting does not agree with the
temperature sensor. Check the input type.
Relay output
250 VAC, 5 A
(resistive load)
Voltage output
(for driving SSR)
12 VDC, 40 mA
When There Is a
Control Output 2:
21 mA
Linear current output
0 to 20 mA DC
4 to 20 mA DC
Load: 500 Ω max.
100 to 240 VAC 24 VAC/DC
Auxiliary outputs 1, 2, 3, 4
-
+
21
+
++
-
19
20
16
17
18
011
6 event Inputs, 1 CT input,
transfer output, and remote SP input
13
14
15
29
30
31
32
35
36
33
34
28
V
mA
V
I
35
-
34
33
32
31
30
29
28
++
++
013
6 event Inputs, transfer
output, and remote SP input
13
14
15
16
17
18
19
20
21
36-
V
mA
V
I
014
Communications, 4 event Inputs,
transfer output, and remote SP input
28
29
30
32
31
33
13
14
15
16
17
18
19
20
21
+
-
+
34++35
36-
V
mA
V
I
EV1
EV2
EV1
EV2
EV1
EV2
EV3
EV4
EV3
EV4
EV5
EV6
EV5
EV6
EV5
EV6
B(+)
A(-)
RS-485
CT1
21
19 19
20
20
21
17
19
20
21
16
17
18
13
13
14 14
15 15
16
17
18
15
16
010
4 event inputs
and 1 CT input
009
Communications, 2 event
inputs, and 2 CT inputs
13
14
18
005
4 event inputs
19
20
21
13
14
15
17
18
16
EV1
EV2
EV1
EV2
EV1
EV2
EV1
EV2
EV3
EV4
EV3
EV4
B(+)
A(-)
RS-485
B(+)
A(-)
RS-485
CT1
CT2
COM
CT1
Transfer
output
Remote
SP input
Transfer
output
Transfer
output
Remote
SP input
Remote
SP input
Terminal type
Auxiliary outputs 1, 2, 3, 4
Control output 2
Control output 1
Relay output
Models with 4 auxiliary
outputs: 250 VAC, 2 A
(resistive load)
Relay output
250 VAC, 5 A
(resistive load)
Voltage output
(for driving SSR)
12 VDC, 21 mA
Linear current output
0 to 20 mA DC
4 to 20 mA DC
Load: 500 Ω max.
(1) Control output
Models with
1 Relay Output
Models with 1
Voltage Output
(for Driving SSR)
Models with 2 Voltage
Outputs (for Driving SSR)
Models with Voltage Output (for
Driving SSR) and Relay Output
Models with 2
Relay Outputs
Models with 2
Linear Current
Outputs
Models with 1
Linear Current Output
RX
QR
QX CX
QQ
(2) Auxiliary Outputs
(3) Input Power Supply
(5) Sensor (Temperature/Analog) Input
(no polarity)
E5EC-@@ 4 @ 5 M - @@@
(1) (2) (3) (4) (5) (6)
RR
7
8
11
12
9
10
CQ
Potentiometer Input
Auxiliary output 2
Auxiliary output 1
Auxiliary output 4
Auxiliary output 3
Models with 2 Outputs: Linear Current Output
and Voltage (for Driving SSR)
(6) Options
004
Communications
and 2 event inputs
23
24
11
12
35
36
19
20
21
22
9
10
31
32
33
34
2
25
7
8
175
6
29
30
3
4
26
27
28
113
14
15
16
18
2
1
2
1
V
-23
V24
+
22
TC
22
+
-
m
A
-
+
23
22
23
24
Pt I
24
22
23
24
-
+
+
++
++
-
-
+
--
--
3
4
5
6
3
4
5
6
3
4
5
6
3
4
5
6
3
4
5
6
3
4
5
6
3
4
5
6
R
R
R
R
Q
Q
Q
Q
OUT1
OUT1
OUT1
C
C
A
B
B
C
OUT1
OUT2
OUT1
OUT2
OUT1
OUT2
OUT1
OUT2
-
+
-
+
3
4
5
6
C
Q
OUT1
OUT2
20
O
21
19
W
C
3
4
5
6
R
R
PR
Open
Close
CC
Models with 2
Position-proportional
Relay Output
Use no-voltage inputs for the event inputs.
The polarity for non-contact inputs is given in parentheses.
(-)
(-)
(-) (-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-) (-) (-)
Note: 1. The application of the terminals depends on the model.
2. Do not wire the terminals that are shown with a gray background.
3. When complying with EMC standards, the cable that connects the
sensor must be 30 m or less. If the cable length exceeds 30 m,
compliance with EMC standards will not be possible.
4. Connect M3 crimped terminals.
35
E5EC/E5EC-B
E5EC/E5EC-B
E5EC-B (Push-In Plus Terminal Blocks)
27
28
26
17
29
30
31
32
19
20
18
21
22
23
24
25
43
44
42
33
45
46
47
48
35
36
34
37
38
39
40
41
-
+
+
011
V
mA
+
-
RX
RQ
OUT1
OUT1
QX
010008
5
6
5
6
1
2
3
4
1
2
3
4
32
Pt
A
B
B
+
-
m
A
-
+
31
30
32
31
30
32
31
30
32
31
30
V
-
V
+
TC I
11
12
9
10
2
1
7
8
5
6
3
4
13
14
15
16
9
10
11
12
13
14
15
16
38
37
39
40
41
42
43
45
46
47
48
44
18
17
19
20
21
22
23
25
26
24
EV6
EV5
+
+
-
V
I
CT1
EV2
EV1
18
17
19
20
21
22
23
25
26
24
CT1
EV2
EV1
EV4
EV3
18
17
19
20
21
22
23
25
26
24
CT1
EV2
EV1
EV4
EV3
B(+)
A(-)
RS-485
*
*
*
*
*
*
*
* *
*
*
*
*
*
Terminal type
E5EC-@@
@
@ B M - @@@
(1)
(2)
(3) (4) (5) (6)
The E5EC is set for a K-type
thermocouple (input type = 5) by
default. An input error (s.err) will
occur if the input type setting does
not agree with the temperature
sensor. Check the input type.
Relay output
250 VAC, 5 A
(resistive load)
Voltage output
(for driving SSR)
12 VDC, 40 mA
Control output 1
Auxiliary outputs 1, 2, 3, 4
Relay output
Model with 2 auxiliary
outputs: 250 VAC, 3 A
(resistive load)
Models with 4 auxiliary
outputs: 250 VAC, 2 A
(resistive load)
(1) Control output
Models with
1 Relay Output
Models with 1
Voltage Output
(for Driving SSR)
100 to 240 VAC 24 VAC/DC
(3) Input Power Supply
(no polarity)
Auxiliary outputs 1, 2, 3, 4Auxiliary outputs 1, 2
(2) Auxiliary Outputs
Auxiliary output 2
Auxiliary output 1
Auxiliary output 4
Auxiliary output 3
9
10
11
12
13
14
15
16
Auxiliary output 1
Auxiliary output 2
(5) Sensor (Temperature/Analog) Input
(6) Options
6 event Inputs, 1 CT input, transfer output, and remote SP input
Transfer
output
Remote
SP input
4 event inputs and 1 CT input
Communications, 2 event
inputs, and 1 CT input
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
Use no-voltage inputs for the event inputs.
The polarity for non-contact inputs is given in parentheses.
Note: 1. The application of the terminals depends on the model.
2. Do not wire the terminals that are shown with a gray background.
3. When complying with EMC standards, the cable that connects the sensor must be 30 m or less. If the cable length exceeds 30 m,
compliance with EMC standards will not be possible.
4. Refer to Wiring Precautions for E5
@
C-B (Controllers with Push-In Plus Terminal Blocks) on page 50 for wire specifications and wiring
methods.
5. Common terminals are indicated with asterisks (*). You can use the input power supply and communications common terminals for
crossover wiring. Do not exceed the maximum number of Temperature Controllers given below if you use crossover wiring for the
input power supply.
100 to 240 VAC Controllers: 16 max.
24 VAC/VDC Controllers: 8 max.
1
2
3
4
To another E5@C
Wiring Example:
36
Isolation/Insulation Block Diagrams
Models with 2 Auxiliary Outputs Models with 4 Auxiliary Outputs
Note: Auxiliary outputs 1 to 2 and 3 to 4 are not insulated.
Nomenclature
Sensor input, CT inputs, and remote SP input
Communications and event inputs
Voltage output (for driving SSR) and transfer output
Relay output
Auxiliary output 1
Auxiliary output 2
: Reinforced insulation
: Functional isolation
Power
Supply
Sensor input, CT inputs, potentiometer input, and remote SP input
Communications and event inputs
Voltage output (for driving SSR),
linear current output, and transfer output
Relay output
Auxiliary outputs 1, 2
Auxiliary outputs 3, 4
: Reinforced insulation
: Functional isolation
Power
Supply
Temperature unit
Front-panel Setup Tool port
Use S Key to change the
digit (default setting).
Use the M Key to change to
another parameter.
No. 1 display
No. 2 display
No. 3 display
PV or specified parameter
SP or specified parameter value
Top View of E5EC Top View of E5EC-B
Use the U D Keys to set
the parameter.
Front panel
Press O Key once to go to Adjustment Level.
Press O Key for at least 3 seconds
to go to Initial Setting Level.
Operation indicators
Manipulated value or other value
Top-panel
Setup
Tool port
E5EC/E5EC-B
37
E5EC/E5EC-B
E5EC/E5EC-B
Dimensions (Unit: mm)
Controllers
1
4
Mounting Adapter
(Accessory)
Waterproof
Packing (Accessory)
96
48 60 44
91
110
(64)
E5EC
92-0.8
0
92+0.8
0
45+0.6
0
120 min.
(48 × number of units − 2.5)+1.0
0
Group mounting does not
allow waterproofing.
Mounted Separately Group Mounted *
Recommended panel thickness is 1 to 8 mm.
Group mounting is not possible in the vertical direction. (Maintain the
specified mounting space between Controllers.)
To mount the Controller so that it is waterproof, insert the waterproof
packing onto the Controller.
When two or more Controllers are mounted, make sure that the sur-
rounding temperature does not exceed the allowable operating tem-
perature specified in the specifications.
*E5EC:
Selections for Control Outputs 1 and 2: QQ, QR, RR, CC, PR, or CQ
If you also specify 011, 013, or 014 for the option selection and use
group mounting, the ambient temperature must be 45°C or less.
Maintain the following spacing when more than one Digital
Controller is installed at an ambient temperature of 55°C.
45
-0.6
0
60 min.
120 min.
92
+0.8
0
Setup Tool ports are provided as standard feature. Use these ports to connect a computer to the Digital Temperature Controller. The E58-
CIFQ2 USB-Serial Conversion Cable is required to connect to the port on the top panel. The E58-CIFQ2 USB-Serial Conversion Cable and
E58-CIFQ2-E Communications Conversion Cable are required to connect to the port on the front panel. (You cannot leave either port
connected constantly during operation.)
E5EC-B
110
67.4
(71.4)
4
(1)
96
48 44
91
Mounting Adapter
(Accessory)
Waterproof Packing
(Accessory)
38
E5EC/E5EC-B
Accessories (Order Separately)
(2110)
250 263 1510
USB connector
(type A plug) Serial connecto
r
LED (SD)
LED (PWR)
LED (RD)
USB-Serial Conversion Cable
E58-CIFQ2
Connecting to the E58-CIFQ2 USB-Serial Conversion CableConversion Cable
(1510) 250
(2110)
E58-CIFQ2 (Order Separately) Conversion Cable
263 1510
Note: Always use this product together with the E58-CIFQ2.
Conversion Cable
E58-CIFQ2-E
10
91
2 3.8
Terminal Covers
E53-COV24 (Three Covers provided.)
Waterproof Packing
Y92S-P9 (for DIN 48 × 96)
The Waterproof Packing is provided with the Temperature
Controller.
Order the Waterproof Packing separately if it becomes lost or
damaged.
The degree of protection when the Waterproof Packing is used
is IP66.
Also, keep the Port Cover on the front-panel Setup Tool port
of the E5EC/E5EC-B securely closed.
To maintain an IP66 degree of protection, the Waterproof
Packing and the Port Cover for the front-panel Setup Tool port
must be periodically replaced because they may deteriorate,
shrink, or harden depending on the operating environment.
The replacement period will vary with the operating
environment.
Check the required period in the actual application.
Use 3 years or sooner as a guideline.
Setup Tool Port Cover for top panel
Y92S-P7
Mounting Adapter
Y92F-51 (Two Adapters provided.)
Order this Port Cover
separately if the Port Cover on
the front-panel Setup Tool port
is lost or damaged. The
Waterproof Packing must be
periodically replaced because
it may deteriorate, shrink, or
harden depending on the
operating environment.
One pair is provided with the
Controller.
Order this Adapter
separately if it becomes lost
or damaged.
39
E5EC/E5EC-B
40
Current Transformers
Watertight Cover
Y92A-49N (48 × 96)
131.7
67.6 28.9
21.9 (2)
E54-CT3 Accessories
Armature
30
21
15 5.8 dia.
25 3
40
10.5
2.8
7.5
10
Two, 3.5 dia.
40 × 40
30
12 dia.
9
2.36 dia.
15
30
Two, M3 (depth: 4)
Approx. 3 dia.
18
(22)
Approx. 6 dia.
Plug
Armature
Lead
E54-CT1
E54-CT3
Connection Example
•Plug
Thru-current (Io) vs. Output Voltage (Eo)
(Reference Values)
E54-CT1
Maximum continuous heater current: 50 A (50/60 Hz)
Number of windings: 400±2
Winding resistance: 18±2
Thru-current (Io) A (r.m.s.)
1 10 100mA 1 10 100
1,000A
100V
Frequency: 50 Hz
3%
1%
100Ω
RL=10Ω
10
1
100mV
10
1
100μV
10
1kΩ
Distortion
factor
10%
Output voltage (Eo) V (r.m.s.)
Thru-current (Io) vs. Output Voltage (Eo)
(Reference Values)
E54-CT3
Maximum continuous heater current: 120 A (50/60 Hz)
(Maximum continuous heater current for an OMRON Digital
Temperature Controller is 50 A.)
Number of windings: 400±2
Winding resistance: 8±0.8
Thru-current (Io) A (r.m.s.)
1 10 100mA 1 10 100
1,000A
100V
Frequency: 50 Hz
3%
1%
1kΩ
100Ω
50Ω
RL=10Ω
500Ω
10
1
100mV
10
1
100μV
10
Distortion
factor
10%
Output voltage (Eo) V (r.m.s.)
E5@C/E5@C-B
Operation
Setting Levels Diagram
E5C
This diagram shows all of the setting levels. To move to the advanced function setting level and calibration level, you must enter passwords. Some
parameters are not displayed depending on the protect level setting and the conditions of use.
Control stops when you move from the operation level to the initial setting level.
*1. Set the PF Setting parameter to a-m (Auto/Manual).
*2. The No. 1 display will flash when the keys are pressed for 1 s or longer.
*3. Set the PF Setting parameter to pfdp (monitor/setting items).
Operation in progress
Stopped
Communications
Setting Level
Advanced Function
Setting Level
Power ON
Initial Setting Level
Operation Level
Adjustment Level
Press the O + M Keys for
at least 1 s
Only when Manual Mode was used
just before power OFF
Level changes
automatically.
Press the S Key.
*3
Press the S Key.
*3
Protect Level
Calibration Level
Manual Control
Level
Press the O Key for at least 1 s.
Press the O Key
for at least 1 s or
the S Key for at
least 1 s
*1
Used to set the MV
manually. Used for SP, alarm
values, and other basic
settings and monitoring.
Used to set protection
for operations.
Used to change adjustment
parameters (PID constants,
adjustment sensitivity, etc.).
Press the O + M
Keys for at least 3 s.
*2
Release protection and
then enter the password
(−169) for the amoV
(Move to Advanced
Setting Level)
parameter.
Used to set application functions.
Enter the password (1201)
while cmov (Move to
Calibration Level
parameter) is displayed.
Used to set the input type
and other basic settings.
Press the O Key
for at least 1 s.
Used to set up
communications.
Press the O Key for
at least 3 s
*2
Press the O Key for less than 1 s.
(models with communications only).
Press the O Key once.
O Key for at
least 3 s while
a-m is
displayed.*2
S Key for at least 1 s
*1
Monitor/Setting
Item Level
Used to display
specified monitor
and setting items.
Control and auxiliary outputs stop.
41
42
E5@C/E5@C-B
Operation
*1 *1
Starting in Manual Mode.
Starting in
Automatic
Mode.
PID
Control
only
PV/MV
Press the O Key less than 1 s.
Press the O and M Keys for
at least 3 s.
Press the O and M Keys
for at least 1 s.
Press the O Key
less than 1 s.
Press the
O Key for
at least 1 s.
Press the O Key for less than 1 s.
Press the
O
Key for at least 3 s.
Other than the Auto/Manual Switch display
Press the
S
Key*2
Press the
S
Key
for at least 1 s.
Press the O
Key or the
S
Key for at least
1 s.
*1. When the PF Setting parameter is set to A-M.
*2. When the PF Setting parameter is set to PFDP.
Press the
S
Key*2
Displayed only for models with
communications. Changes are
effective after cycling power or
after a software reset.
*3. Used with component communications.
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
* Used with programless communications
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
pmsk
on
25
0
C
25
0
l.adj ins
0.0
rss
0.0
inrt
1.000
rsrt
1.000
c-p
8.0
c-i
233
c-d
40
M
M
M
p
8.0
i
233
d
40
c-db
0.0
of-r
50.0
hys
1.0
chys
1.0
soak
1
wt-b
off
mv-s
0.0
pmov
0
psel
cwf
u-no
1
bps
9.6
len
7
sbit
2
prty
even
sdwt
20
maxu
0
area
0
adrh
0
adrl
0
rwat
1000
unit
0
up 1
1
up13
0
dn 1
31
dn13
75
copy
off
sps
1.000
spos
0.0
oapt
0
icpt
1
wtpt
off
pfpt
off
M
M
chgp
off
M
prlp
0
mv-e
0.0
sprl
same
M
sprt
off
w1on
w2on
w3on
w4of
w5on
w6on
w7on
w8on
w1of
w2of
w3of
w4on
w5of
w6of
w7of
w8of
plcm
0
ol-h
100.0
ol-l
0.0
M
sqrp
0.0
M
oc-h
0.8
at
off
cmwt
off
ct1
0.0
M
spmd
lsp
hb1
0.0
ct2
0.0
hb2
0.0
lcr1
0.0
hs1
50.0
lcr2
0.0
hs2
50.0
sp-0
0
sp-1
0
sp-2
0
sp-3
0
sp-4
0
sp-5
0
sp-6
0
sp-7
0
M
sp-3
0
r-s
run
v-m
in-t
5
in-h
100
in-l
0
dp
0
d-u
c
sl-h
1300
sl-l
-200
cntl
onof
s-hc
stnd
st
on
ptrn
off
cp
20
c-cp
20
orev
or-r
alt1
2
alh1
0.2
al-1
0
al1h
0
al1l
0
al-2
0
al2h
0
al2l
0
al-4
0
al4h
0
al4l
0
M
M
M
al-3
0
al3h
0
al3l
0
o
0.0
c-o
0.0
0.0
25
0
a-m
m-sp
0
sp-m
0
rsp
0.0
ct1
0.0
ct2
0.0
lcr1
0.0
lcr2
0.0
prst
rset
M
sktr
0
M
orl
0.0
M
db
2.0
Power ON
Adjustment
Level
Press the O Key less than 1 s.
Manual Control Level
Adjustment Level
Display
Displayed only
once when
entering
adjustment level.
AT Execute/Cancel
Communications
Writing
Heater Current 1
Value Monitor
Heater Burnout
Detection 1
Heater Current 2
Value Monitor
Heater Burnout
Detection 2
Leakage Current 1
Monitor
Leakage Current 2
Monitor
HS Alarm 1
SP Mode
SP 4
SP 5
SP 6
SP 7
HS Alarm 2
SP 0
SP 1
SP 2
SP 3
Proportional Band
(Cooling)
Integral Time
(Cooling)
Derivative Time
(Cooling)
Process Value Input
Shift
Remote SP Input Shift
Process Value Slope
Coefficient
Remote SP Input
Slope Coefficient
Proportional Band
Integral Time
Derivative Time
Dead Band
SP Ramp Fall Value
Manual Reset Value
Hysteresis (Heating)
Hysteresis (Cooling)
Soak Time
Wait Band
MV at Stop
MV at PV Error
SP Ramp Set Value
MV Upper Limit
MV Lower Limit
MV Change Rate
Limit
Work Bit 1
ON Delay
Work Bit 2
ON Delay
Work Bit 3
ON Delay
Work Bit 4
OFF Delay
Work Bit 5
ON Delay
Work Bit 6
ON Delay
Work Bit 7
ON Delay
Work Bit 8
ON Delay
Work Bit 1
OFF Delay
Work Bit 2
OFF Delay
Work Bit 3
OFF Delay
Work Bit 4
ON Delay
Work Bit 5
OFF Delay
Work Bit 6
OFF Delay
Work Bit 7
OFF Delay
Work Bit 8
OFF Delay
Extraction of
Square Root
Low-cut Point
Press the
O Key
for at
least 3 s.
Process Value/
Set Point 1
Process Value/
Set Point 2
Auto/Manual Switch
Multi-SP
Set Point During
SP Ramp
Heater Current 1 Value
Monitor
Heater Current 2 Value
Monitor
Leakage Current 1
Monitor
Leakage Current 2
Monitor
Program Start
Soak Time Remain
RUN/STOP
Remote SP Monitor
Operation Level
Position
Proportional
Dead Band
Open/Close
Hysteresis
Communications
Monitor
Initial Setting Level
Alarm
Value 1
Alarm Value
Upper Limit
1
Alarm Value
Lower Limit
1
Alarm
Value 2
Alarm Value
Upper Limit
2
Alarm Value
Lower Limit
2
Alarm
Value 3
Alarm Value
Upper Limit
3
Alarm Value
Lower Limit
3
MV Monitor
(Heating)
MV Monitor
(Cooling)
Alarm Value
Upper Limit
4
Alarm Value
Lower Limit
4
Alarm
Value 4
Valve Opening
Monitor
Protect Level
Communications
Setting Level
Move to Protect Level:
Displayed only when a
password is set.
Operation/Adjustment Protect
Initial Setting/Communications
Protect
Setting Change Protect
Password to Move to
Protect Level
PF Key Protect
Parameter Mask Enable
Changed Parameters Only
Protocol Setting:
Switches between
CompoWay/F and
Modbus.
Communications
Unit No.
Communications
Baud Rate
Communications
Data Length
Communications
Stop Bits
Communications
Parity
Send Data Wait
Time
ST (Self-tuning)
Input Type
Scaling Upper Limit
Scaling Lower Limit
Decimal Point
Temperature Unit
SP Upper Limit
SP Lower Limit
PID ON/OFF
Standard or
Heating/Cooling
Program Pattern
Control Period (Heating)
Control Period (Cooling)
Direct/Reverse Operation
Alarm 1 Type
Alarm 1
Hysteresis
Highest
Communications
Unit No.
The time taken to move to the protect level
can be adjusted by changing the "Move to
protect level time" setting.
*3
Area
First Address
Upper Word
First Address
Lower Word
Receive Data
Wait Time
*3
Communications
Node Number
Upload
Setting 1
Upload
Setting 13
Download
Setting 1
Download
Setting 13
Copy
*3
SP Slope
*3
SP Offset
*3
M
Alarm 2 Type
M
alh2
0.2
Alarm 2
Hysteresis
alt2
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Parameters
E5@C
The following pages describe the parameters set in each level. Pressing the M (Mode) Key at the last parameter in each level returns to the top
parameter in that level. Some parameters may not be displayed depending on the model and other settings.
E5@C/E5@C-B
43
SS S S
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
MM
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
25
0
init
off
a1lt
off
a2lt
off
a3lt
off
a4lt
off
prlt
3
a1on
0
a2on
0
a3on
0
a4on
0
a1of
0
a2of
0
a3of
0
a4of
0
mvse
off
amad
off
mant
hold
mani
0.0
rt
off
hsu
on
pf
shft
pfd1
1
pfd2
0
pfd3
0
pfd4
0
pfd5
0
spd1
4
spd2
0
odsl
o
pvdp
on
pvst
off
svst
off
d.ref
0.25
lcmt
0.2
hsl
off
hsh
0.1
lba
0
lbal
8.0
lbab
3.0
out1
o
out2
none
sub1
alm1
sub2
alm2
sub3
alm3
sub4
alm4
alma
49
t-u
m
alsp
sp-m
rs-t
4-20
rspu
off
rsph
1300
rspl
-200
M
M
M
M
M
sptr
off
p-db
0
pvrp
20
hctm
off
ompw
1.0
mspu
off
spru
m
rest
a
sb1n
n-o
sb2n
n-o
sb3n
n-o
sb4n
n-o
hbu
on
hbl
off
hbh
0.1
st-b
15.0
alfa
0.65
tidu
1
at-g
0.8
at-h
0.8
lcma
20.0
inf
0.0
mav
off
M
M
M
M
M
o-dp
off
ret
off
brgt
3
alt4
2
alh4
0.2
M
M
alt3
2
alh3
0.2
tr-t
off
tr-h
100.0
tr-l
0.0
ev-1
msp0
ev-2
stop
ev-3
none
ev-4
none
M
M
ev-5
none
ev-6
none
sqr
off
M
mot
30
M
calb
off
M
clfl
flot
M
o1st
4-20
M
o2st
4-20
M
trst
4-20
amov
0
MMM
M
M
M
cjc
on
M
manl
off
M
pmvd
off
M
PV/SP No. 1 Display
Selection
PV/SP No. 2 Display
Selection
Integral/Derivative
Time Unit
Integrated Alarm
Assignment
Remote SP Input
Remote SP Enable
Remote SP
Upper Limit
Remote SP
Lower Limit
Moving Average Count Manual Output Method
Manual MV Initial Value
Heating/Cooling
Tuning Method
Minimum Output
ON/OFF Band
SP Tracking
Display Brightness
Event Input
Assignment 5
Control Output 1 Signal
Control Output 2 Signal
Transfer Output Signal
Event Input
Assignment 6
RT
Monitor/Setting Item Level
Monitor/Setting
Item Display 1
Note: The monitor/setting items to be displayed is set in the Monitor/Setting Item 1 to 5 parameters (advanced function setting level).
Monitor/Setting
Item Display 2
Monitor/Setting
Item Display 3
Monitor/Setting
Item Display 4
Monitor/Setting
Item Display 5
Press the O Key
for at least 1 s.
Advanced Function Setting Level
Alarm 3 Type
Alarm 3
Hysteresis
Transfer Output Type
Transfer Output
Upper Limit
Transfer Output
Lower Limit
Event Input
Assignment 1
Event Input
Assignment 2
Extraction of Square
Root Enable
Move to Advanced Function
Setting Level:
Displayed when initial
setting/communications
protect is set to 0.
Move by setting password (169).
Parameter Initialization
Number of Multi-SP
Points
SP Ramp Time Unit
Standby Sequence
Reset
Auxiliary Output 1
Open in Alarm
Auxiliary Output 2
Open in Alarm
Auxiliary Output 3
Open in Alarm
HB ON/OFF
Heater Burnout Latch
Heater Burnout
Hysteresis
ST Stable Range
AT Calculated Gain
α
AT Hysteresis
Limit Cycle MV
Amplitude
Input Digital Filter
MV Display
Automatic Display
Return Time
Alarm 1 Latch
Alarm 2 Latch
Alarm 3 Latch
Move to Protect Level
Time
Cold Junction
Compensation
Method
Alarm 1 ON Delay
Alarm 2 ON Delay
Alarm 3 ON Delay
Alarm 1 OFF Delay
Alarm 2 OFF Delay
Alarm 3 OFF Delay
MV at Stop and Error
Addition
Auto/Manual Select
Addition
HS Alarm Use
HS Alarm Latch
HS Alarm Hysteresis
LBA Detection Time
LBA Level
LBA Band
Control Output 1
Assignment
Control Output 2
Assignment
Auxiliary Output 4
Assignment
(E5EC/E5AC only)
Soak Time Unit
Alarm SP Selection
Manual MV
Limit Enable
PV Rate of Change
Calculation Period
LCT Cooling Output
Minimum ON Time
PF Setting
Monitor/Setting Item 1
Monitor/Setting Item 2
Monitor/Setting Item 3
Monitor/Setting Item 4
Monitor/Setting Item 5
MV Display Selection
PV Decimal Point
Display
PV Status Display
Function
SV Status Display
Function
Display Refresh
Period
Auxiliary Output 4
Open in Alarm
Alarm 4 Latch
Alarm 4 ON Delay
Alarm 4 OFF Delay
Auxiliary Output 1
Assignment
Auxiliary Output 2
Assignment
Auxiliary Output 3
Assignment
Alarm 4 Type
Alarm 4
Hysteresis
Event Input
Assignment 3
Event Input
Assignment 4
Motor Calibration
Close/Floating
Travel Time
PV Dead Band
Direct Setting of
Position Proportional
MV
M
cmov
0
Move to Calibration
Level
o1th
100.0
o1tl
0.0
Simple Transfer
Output 1 Upper Limit
Simple Transfer
Ouptut 1 Lower Limit
E5@C/E5@C-B
Error Displays (Troubleshooting)
When an error occurs, the No. 1 display or No. 2 display shows the error code.
Take necessary measure according to the error code, referring the following table.
Display Name Meaning Action Operation
s.err Input error
The input value exceeded the control
range.*
The input type is not set correctly.
The sensor is disconnected or short-
circuited.
The sensor is not wired correctly.
The sensor is not wired.
* Control Range
Temperature resistance
thermometer or thermocouple input:
SP Lower Limit - 20°C to SP Upper
Limit + 20°C
(SP Lower Limit - 40°F to SP Upper
Limit + 40°F)
ESIB input:
Same as specified input range.
Analog input:
Scaling range -5% to 105%
Check the wiring for input to be sure
it is wired correctly, not broken, and
not shorted. Also check the input
type.
If there are no problems in the wiring
or input type settings, cycle the
power supply.
If the display remains the same,
replace the Digital Temperature
Controller.
If the display is restored to normal,
then the probable cause is external
noise affecting the control system.
Check for external noise.
Note: For a temperature resistance
thermometer, the input is
considered disconnected if
the A, B, or B’ line is broken.
After the error occurs and it is
displayed, the alarm output will operate
as if the upper limit was exceeded.
It will also operate as if transfer
output exceeded the upper limit.
If an input error is assigned to a
control output or auxiliary output, the
output will turn ON when the input
error occurs.
The error message will appear in the
display for the PV.
Note: 1.
The heating and cooling
control outputs will turn OFF.
2. When the manual MV, MV
at stop, MV at reset, or MV
at error is set, the control
output is determined by the
set value.
[[[[
Display
range
exceeded
Below -1,999
This is not an error. It
is displayed when the
control range is wider
than the display range
and the PV exceeds
the display range.
The PV is displayed
for the range that is
given on the left (the
number without the
decimal point).
-
Control continues and operation is
normal.
The value will appear in the display
for the PV.
Refer to the E5
@
C Digital Temperature
Controllers User’s Manual (Cat. No.
H174) or the E5
@
C-T Digital
Temperature Controllers
Programmable Type User’s Manual
(Cat. No. H185) for information on the
controllable range.
]]]] Above 9,999
e333
A/D
converter
error
There is an error in the internal
circuits.
After checking the input error, turn
the power OFF then back ON again.
If the display remains the same, the
controller must be repaired.
If the display is restored to normal,
then a probable cause can be
external noise affecting the control
system. Check for external noise.
The control outputs, auxiliary
outputs, and transfer outputs turn
OFF. (A current output will be approx.
0 mA and a linear voltage output will
be approx. 0V.)
e111 Memory
error
There is an error in the internal
memory operation.
First, cycle the power supply.
If the display remains the same, the
controller must be repaired.
If the display is restored to normal,
then a probable cause can be
external noise affecting the control
system. Check for external noise.
The control outputs, auxiliary
outputs, and transfer outputs turn
OFF. (A current output will be approx.
0 mA and a linear voltage output will
be approx. 0V.)
ffff Overcurrent This error is displayed when the peak
current exceeds 55.0 A. -
Control continues and operation is
normal.
The error message will appear for the
following displays.
Heater Current Value 1 Monitor
Heater Current Value 2 Monitor
Leakage Current Value 1 Monitor
Leakage Current Value 2 Monitor
ct1
ct2
lcr1
lcr2
HB or HS
alarm
If there is a HB or HS alarm, the No.
1 display will flash in the relevant
setting level.
-
The No. 1 display for the following
parameter flashes in Operation Level
or Adjustment Level.
Heater Current Value 1 Monitor
Heater Current Value 2 Monitor
Leakage Current Value 1 Monitor
Leakage Current Value 2 Monitor
However, control continues and
operation is normal.
----
Potentiometer
Input Error
(Position-
proportional
Models Only)
"----" will be displayed for the Valve
Opening Monitor parameter if any of
the following error occurs.
Motor calibration has not been
performed.
The wiring of the potentiometer is
incorrect or broken.
The potentiometer input value is
incorrect (e.g., the input is out of
range or the potentiometer has
failed).
Check for the above errors.
Close control: The control output is
OFF or the value that is set for the
MV at PV Error parameter is output.
Floating control: Operation will be
normal.
44
Safety Precautions
Be sure to read the precautions for all E5
@
C/E5
@
C-B models in the website at:
www.omron247.com/.
Warning Indications
Meaning of Product Safety Symbols
Do not touch the terminals while power is being
supplied.
Doing so may occasionally result in minor injury due
to electric shock.
Electric shock may occur. Do not touch any cables or
connectors with wet hands.
Minor electric shock, fire, or malfunction may
occasionally occur. Do not allow any metal,
conductors, chips from mounting work, or water to
enter the interior of the Digital Controller, the Setting
Tool port, or between the pins on the Setting Tool cable
connector.
If you do not use the Setting Tool port on the front panel, close
the cover securely so that the above foreign matter does not
enter.
Do not use the Digital Temperature Controller where
subject to flammable or explosive gas. Otherwise,
minor injury from explosion may occasionally occur.
Not doing so may occasionally result in fire. Do not
allow dirt or other foreign objects to enter the Setup
Tool port or ports, or between the pins on the
connectors on the Setup Tool cable.
Minor electric shock or fire may occasionally occur.
Do not use any cables that are damaged.
Never disassemble, modify, or repair the product or
touch any of the internal parts. Minor electric shock,
fire, or malfunction may occasionally occur.
CAUTION - Risk of Fire and Electric Shock
1. This product is UL listed *1 as Open Type Process
Control Equipment. It must be mounted in an
enclosure that does not allow fire to escape externally.
2. More than one disconnect switch may be required to
de-energize the equipment before servicing the product.
3. Signal inputs are SELV, limited energy. *2
4. Caution: To reduce the risk of fire or electric shock, do not
interconnect the outputs of different Class 2 circuits. *3
If the output relays are used past their life expectancy,
contact fusing or burning may occasionally occur.
Always consider the application conditions and use
the output relays within their rated load and electrical
life expectancy. The life expectancy of output relays varies
considerably with the output load and switching conditions.
Tighten the terminal screws to the rated torque of
between 0.43 and 0.58 N•m. *4
Loose screws may occasionally result in fire.
Set the parameters of the product so that they are
suitable for the system being controlled. If they are
not suitable, unexpected operation may occasionally
result in property damage or accidents.
A malfunction in the product may occasionally make
control operations impossible or prevent alarm
outputs, resulting in property damage.
To maintain safety in the event of malfunction of the
product, take appropriate safety measures, such as installing a
monitoring device on a separate line.
*1. E5CC and E5EC Digital Temperature Controllers that were
shipped through November 2013 are UL recognized.
*2. An SELV (separated extra-low voltage) system is one with a
power supply that has double or reinforced insulation between the
primary and the secondary circuits and has an output voltage of
30 V r.m.s. max. and 42.4 V peak max. or 60 VDC max.
*3. A class 2 circuit is one tested and certified by UL as having the
current and voltage of the secondary output restricted to specific
levels.
*4. The specified torque is 0.5 N·m for the E5CC-U.
CAUTION
Indicates a potentially hazardous
situation which, if not avoided, may
result in minor or moderate injury or in
property damage.
Precautions for
Safe Use
Supplementary comments on what to
do or avoid doing, to use the product
safely.
Precautions for
Correct Use
Supplementary comments on what to
do or avoid doing, to prevent failure to
operate, malfunction or undesirable
effect on product performance.
Used to warn of the risk of electric shock under
specific conditions.
Used for general prohibitions for which there is no
specific symbol.
Used to indicate prohibition when there is a risk of
minor injury from electrical shock or other source
if the product is disassembled.
Used for general CAUTION, WARNING, or
DANGER precautions for which there is no
specified symbol. (This symbol is also used as the
alerting symbol, but shall not be used in this
meaning on the product.)
Used for general mandatory action precautions
for which there is no specified symbol.
CAUTION
45
E5@C/E5@C-B
E5@C/E5@C-B
Be sure to observe the following precautions to prevent malfunction
or adverse affects on the performance or functionality of the product.
Not doing so may occasionally result in faulty operation. Do not
handle the Digital Temperature Controller in ways that exceed the
ratings.
1. This product is specifically designed for indoor use only.
Do not use this product in the following places:
Places directly subject to heat radiated from heating equipment.
Places subject to splashing liquid or oil atmosphere.
Places subject to direct sunlight.
Places subject to dust or corrosive gas (in particular, sulfide gas
and ammonia gas).
Places subject to intense temperature change.
Places subject to icing and condensation.
Places subject to vibration and large shocks.
2. Use and store the product within the rated ambient temperature
and humidity.
Gang-mounting two or more Digital Temperature Controllers, or
mounting Digital Temperature Controllers above each other may
cause heat to build up inside the Digital Temperature Controllers,
which will shorten their service life. In such a case, use forced
cooling by fans or other means of air ventilation to cool down the
Digital Temperature Controllers.
3. To allow heat to escape, do not block the area around the Digital
Temperature Controller.
Do not block the ventilation holes on the Digital Temperature
Controller.
4. Be sure to wire properly with correct signal name and polarity of
terminals.
5. Use copper stranded wires to connect bare wires.
Recommended Wire
*1. Please use Ferrules with UL certification (R/C).
Use the specified size of crimped terminals to wire the E5CC
and E5EC (models with screw terminal blocks) and the
E5CC-U (plug-in models).
Recommended Crimped Terminal Size
For the E5@C-B(Push-In Plus model), connect only one wire to
each terminal.
For other models, up to two wires of same size and type, or two
crimp terminals, can be inserted into a single terminal.
6. Do not wire the terminals that are not used.
7. Use a commercial power supply for the power supply voltage input
to a Digital Temperature Controller with AC input specifications.
Do not use the output from an inverter as the power supply.
Depending on the output characteristics of the inverter,
temperature increases in the Digital Temperature Controller may
cause smoke or fire damage even if the inverter has a specified
output frequency of 50/60 Hz.
8. To avoid inductive noise, keep the wiring for the product’s terminal
block away from power cables carry high voltages or large
currents. Also, do not wire power lines together with or parallel to
product wiring. Using shielded cables and using separate conduits
or ducts is recommended.
Attach a surge suppressor or noise filter to peripheral devices that
generate noise (in particular, motors, transformers, solenoids,
magnetic coils, or other equipment that have an inductance
component).
When a noise filter is used at the power supply, first check the
voltage or current, and attach the noise filter as close as possible
to the product.
Allow as much space as possible between the product and
devices that generate powerful high frequencies (high-frequency
welders, high-frequency sewing machines, etc.) or surge.
9. Use this product within the rated load and power supply.
10.Make sure that the rated voltage is attained within two seconds of
turning ON the power using a switch or relay contact. If the voltage
is applied gradually, the power may not be reset or output
malfunctions may occur.
11.Make sure that the Digital Temperature Controller has 30 minutes
or more to warm up after turning ON the power before starting
actual control operations to ensure the correct temperature
display.
12.When executing self-tuning with E5@C, turn ON power to the load
(e.g., heater) at the same time as or before supplying power to the
product. If power is turned ON to the product before turning ON
power to the load, self-tuning will not be performed properly and
optimum control will not be achieved.
13.A switch or circuit breaker must be provided close to the product.
The switch or circuit breaker must be within easy reach of the
operator, and must be marked as a disconnecting means for this
unit.
14.Use a soft and dry cloth to clean the product carefully. Do not use
organic solvent, such as paint thinner, benzine or alcohol to clean
the product.
15.Design the system (e.g., control panel) considering the 2 seconds
of delay that the product's output to be set after power ON.
16.The output may turn OFF when you move to the initial setting level.
Take this into consideration when performing control operations.
17.The number of non-volatile memory write operations is limited.
Therefore, use RAM write mode when frequently overwriting data
during communications or other operations.
18.Always touch a grounded piece of metal before touching the
Digital Temperature Controller to discharge static electricity from
your body.
19.Use suitable tools when taking the Digital Temperature Controller
apart for disposal. Sharp parts inside the Digital Temperature
Controller may cause injury.
20.For compliance with Lloyd’s standards, the E5CC, E5CC-B,
E5EC-B, E5CC-U, E5EC must be installed under the conditions
that are specified in Shipping Standards.
21.
22.
For the Digital Temperature Controller with two Setup Tool
ports (E5EC/E5EC-B), do not connect cables to both ports at
the same time. The Digital Temperature Controller may be
damaged or may malfunction.
Do not place heavy object on the Conversion Cable, bend the
cable past its natural bending radius, or pull on the cable with
undue force. The Digital Temperature Controller may be
damaged.
Precautions for Safe Use
Model Wire Size Wire Stripping length
E5CC/E5EC
(Controllers with
Screw Terminal
Blocks)
AWG24 to AWG18
(0.21 to 0.82mm
2
)
6 to 8 mm
E5CC-U
(Plug-in model)
AWG24 to 14
(0.21 to
2.08mm2
)
5 to 6 mm
E5@C-B
(Controllers with
Push-In Plus
Terminal Blocks)
0.25 to
1.5mm2
Equivalent to
AWG24 to 16
Ferrules used: 10 mm *1
Ferrules not used: 8 mm
Model Wire Size
E5CC/E5EC
(Controllers with
Screw Terminal Blocks)
M3, Width: 5.8 mm max.
E5CC-U (Plug-in model) M3.5, Width: 7.2 mm max.
46
E5@C/E5@C-B
23.Do not disconnect the Communications Conversion Cable or the
USB-Serial Conversion Cable while communications are in
progress. Damage or malfunction may occur.
24.Do not touch the external power supply terminals or other metal
parts on the Digital Temperature Controller.
25.Do not exceed the communications distance that is given in the
specifications and use the specified communications cable. Refer
to the E5@C Digital Temperature Controllers User’s Manual (Cat.
No. H174) for information on the communications distances and
cables for the E5@C.
26.Do not bend the communications cables past their natural bending
radius. Do not pull on the communications cables.
27.Do not turn the power supply to the Digital Temperature Controller
ON or OFF while the USB-Serial Conversion Cable is connected.
The Digital Temperature Controller may malfunction.
28.Make sure that the indicators on the USB-Serial Conversion Cable
are operating properly. Depending on the application conditions,
deterioration in the connectors and cable may be accelerated, and
normal communications may become impossible. Perform
periodic inspection and replacement.
29.Connectors may be damaged if they are inserted with excessive
force. When connecting a connector, always make sure that it is
oriented correctly. Do not force the connector if it does not connect
smoothly.
30.Noise may enter on the USB-Serial Conversion Cable, possibly
causing equipment malfunctions. Do not leave the USB-Serial
Conversion Cable connected constantly to the equipment.
31.For the E5DC, when you attach the Main Unit to the Terminal Unit,
make sure that the hooks on the Main Unit are securely inserted
into the Terminal Unit.
32.For the E5CC-U, when you attach the Main Unit to the socket,
make sure that the hooks on the socket are securely inserted into
the Main Unit.
33.Install the DIN Track vertically to the ground.
34.Observe the following precautions when you wire the E5@C-B.
Always follow the wiring instructions provided in Wiring
Precautions for E5
@
C-B (Controllers with Push-In Plus
Terminal Blocks) on page 50.
Do not wire anything to the release holes.
Do not tilt or twist a flat-blade screwdriver while it is inserted into
a release hole on the terminal block. The terminal block may be
damaged.
Insert a flat-blade screwdriver into the release holes at an angle.
The terminal block may be damaged if you insert the
screwdriver straight in.
Do not allow the flat-blade screwdriver to fall out while it is
inserted into a release hole.
Do not bend a wire past its natural bending radius or pull on it
with excessive force. Doing so may cause the wire to break.
Do not use crossover wiring except for the input power supply
and communications.
The E5CC, E5CC-B, E5CC-U, E5EC, and E5EC-B, comply with
Lloyd's standards. When applying the standards, the following
installation requirements must be met in the application. Also insert
the Waterproof Packing on the backside of the front panel.
Application Conditions
Installation Location
The E5CC, E5CC-B, E5CC-U, E5EC, and E5EC-B comply with
installation category ENV1 and ENV2 of Lloyd's standards.
Therefore, they must be installed in a location equipped with air
conditioning. They cannot be used on the bridge or decks, or in a
location subject to strong vibration.
Service Life
1.
Use the product within the following temperature and humidity ranges:
Temperature: -10 to 55°C (with no icing or condensation)
Humidity: 25% to 85%
If the product is installed inside a control board, the ambient
temperature must be kept to under 55°C, including the temperature
around the product.
2.
The service life of electronic devices like Digital Temperature
Controllers is determined not only by the number of times the relay is
switched but also by the service life of internal electronic components.
Component service life is affected by the ambient temperature: the
higher the temperature, the shorter the service life and, the lower
the temperature, the longer the service life. Therefore, the service
life can be extended by lowering the temperature of the Digital
Temperature Controller.
3. When two or more Digital Temperature Controllers are mounted
horizontally close to each other or vertically next to one another,
the internal temperature will increase due to heat radiated by the
Digital Temperature Controllers and the service life will decrease.
In such a case, use forced cooling by fans or other means of air
ventilation to cool down the Digital Temperature Controllers. When
providing forced cooling, however, be careful not to cool down the
terminals sections alone to avoid measurement errors.
Shipping Standards
Precautions for Correct Use
47
E5@C/E5@C-B
Measurement Accuracy
1.
When extending or connecting the thermocouple lead wire, be sure to
use compensating wires that match the thermocouple types.
2.
When extending or connecting the lead wire of the platinum resistance
thermometer, be sure to use wires that have low resistance and keep
the resistance of the three lead wires the same.
3. Mount the product so that it is horizontally level.
4. If the measurement accuracy is low, check to see if input shift has
been set correctly.
Waterproofing (Not applicable to the E5CC-U.)
The degree of protection is as shown below. Sections without any
specification on their degree of protection or those with IP@0 are not
waterproof.
Front panel: IP66, Rear case: IP20, Terminal section: IP00 When
waterproofing is required, insert the Waterproof Packing on the
backside of the front panel. Keep the Port Cover on the front-panel
Setup Tool port of the E5EC/E5EC-B securely closed. The degree of
protection when the Waterproof Packing is used is IP66. To maintain
an IP66 degree of protection, the Waterproof Packing and the Port
Cover for the front-panel Setup Tool port must be periodically
replaced because they may deteriorate, shrink, or harden depending
on the operating environment. The replacement period will vary with
the operating environment. Check the required period in the actual
application. Use 3 years or sooner as a guideline.
Operating Precautions
1. When using self-tuning, turn ON power for the load (e.g., heater)
at the same time as or before supplying power to the Digital
Temperature Controller. If power is turned ON for the Digital
Temperature Controller before turning ON power for the load, self-
tuning will not be performed properly and optimum control will not
be achieved.
When starting operation after the Digital Temperature Controller
has warmed up, turn OFF the power and then turn it ON again at
the same time as turning ON power for the load. (Instead of turning
the Digital Temperature Controller OFF and ON again, switching
from STOP mode to RUN mode can also be used.)
2. Avoid using the Digital Temperature Controller in places near a
radio, television set, or wireless installing. These devices can
cause radio disturbances which adversely affect the performance
of the Controller.
Others
1. Do not Connect or disconnect the Conversion Cable connector
repeatedly over a short period of time.
The computer may malfunction.
2. After connecting the Conversion Cable to the computer, check the
COM port number before starting communications. The computer
requires time to recognize the cable connection. This delay does
not indicate failure.
3. Do not connect the Conversion Cable through a USB hub. Doing
so may damage the Conversion Cable.
4. Do not use an extension cable to extend the Conversion Cable
length when connecting to the computer. Doing so may damage
the Conversion Cable.
Mounting
Mounting to a Panel
E5CC/E5CC-B/E5CC-U
E5CC
There are two models of Terminal Covers that you can use with the
E5CC.
•E5CC-U
For the Wiring Socket for the E5CC-U, purchase the P2CF-11 or
PG3A-11 separately.
1. For waterproof mounting, waterproof packing must be installed on
the Digital Temperature Controller. Waterproofing is not possible
when group mounting several Digital Temperature Controllers.
The E5CC-U cannot be waterproofed even if the Waterproof
Packing is inserted.
2. Insert the E5CC/E5CC-B/E5CC-U into the mounting hole in the
panel.
3. Push the adapter from the terminals up to the panel, and
temporarily fasten the E5CC/E5CC-B/E5CC-U.
4. Tighten the two fastening screws on the adapter.
Alternately tighten the two screws little by little to maintain a
balance. Tighten the screws to a torque of 0.29 to 0.39 N·m.
Panel
Water Proof Packing
Terminal Cover
(E53-COV17)
(Sold separately)
Adapter
Terminal Cover
(E53-COV23)
48
E5@C/E5@C-B
E5EC/E5EC-B
1. For waterproof mounting, waterproof packing must be installed on
the Digital Temperature Controller. Waterproofing is not possible
when group mounting several Digital Temperature Controllers.
2. Insert the E5EC/E5EC-B into the mounting hole in the panel.
3. Push the adapter from the terminals up to the panel, and
temporarily fasten the E5EC/E5EC-B.
4. Tighten the two fastening screws on the adapter.
Alternately tighten the two screws little by little to maintain a
balance. Tighten the screws to a torque of 0.29 to 0.39 N·m.
Adapter
Adapter
Panel
Water Proof Packing
Terminal Cover
(E53-COV24)
Terminal Cover
(E53-COV24)
Mounting the DIN Track
Attach the DIN Track to the inside of the control panel with screws to
at least three locations.
DIN Track (sold separately)
PFP-50N (50 cm) and PFP-100N (100 cm)
Install the DIN Track vertically to the ground.
Mounting the Terminal Cover
E5CC/E5CC-B
Slightly bend the E53-COV23 Terminal Cover to attach it to the
terminal block as shown in the following diagram. The Terminal Cover
cannot be attached in the opposite direction. E53-COV17 Terminal
Cover can be also attached.
Make sure that the "UP" mark is facing up, and then attach the E53-
COV17 Terminal Cover to the holes on the top and bottom of the
Digital Temperature Controller.
Vertical: OK Horizontal: NG
Adapter
Terminal Cover
(E53-COV17)
(Sold separately)
E53-COV17 E53-COV23
Enlarged illustration of
Terminal Section
E5EC/E5EC-B
Slightly bend the E53-COV24 Terminal Cover to attach it to the
terminal block as shown in the following diagram. The Terminal Cover
cannot be attached in the opposite direction.
Enlarged illustration of the terminal part
Slightly bend the
E53-COV24 Terminal
Cover in the direction
shown by the arrows to
attach it to the terminal block.
Precautions when Wiring
Separate input leads and power lines in order to prevent external
noise.
Use crimp terminals when wiring the screw terminal blocks.
Use the suitable wiring material and crimp tools for crimp terminals.
Tighten the terminal screws to a torque of 0.43 to 0.58 N·m.
The specified torque is 0.5 N·m for the E5CC-U.
E5CC/E5EC
(Controllers with Screw Terminal Blocks) and
E5CC-U (Plug-in model)
Wire Size
Use the wire sizes and stripping lengths given in the following table.
If you use crimp terminals, use the stripping length that is
recommended by the manufacturer of the crimp terminals.
To reduce the affects of noise, use shielded twisted-pair cable for
the signal lines.
Crimp Terminal
For the E5CC/E5EC (Controllers with Screw Terminal Blocks),
use the following types of crimp terminals for M3 screws.
For the E5CC-U, use the following types of crimp terminals for M3.5
screws.
Model Wire Size Stripping length
E5CC/E5EC/E5AC/
E5DC/E5GC
(Controllers with
Screw Terminal
Blocks) / E5@C-T
AWG24 to AWG18
(0.21 to 0.82 mm2)
6 to 8 mm
(without crimp
terminals)
E5CC-U AWG24 to AWG14
(0.21 to 2.08 mm2)
5 to 6 mm
(without crimp
terminals)
5.8 mm max.
5.8 mm max.
7.2 mm max.
7.2 mm max.
49
E5@C/E5@C-B
E5@C-B (Controllers with Push-In Plus Terminal Blocks)
1. Connecting Wires to the Push-In Plus Terminal Block
Part Names of the Terminal Block
Connecting Wires with Ferrules
Insert the ferrule straight into the terminal block until the end
touches the terminal block.
If a wire is difficult to connect because it is too thin, use a flat-blade
screwdriver in the same way as when connecting stranded wire.
Connecting Stranded Wires
Use the following procedure to connect the wires to the terminal block.
1. Hold a flat-blade screwdriver at an angle and insert it into the
release hole. The angle should be between 10° and 15°.
If the flat-blade screwdriver is inserted correctly, you will feel the
spring in the release hole.
2. With the flat-blade screwdriver still inserted into the release hole,
insert the wire into the terminal hole until it strikes the terminal
block.
3. Remove the flat-blade screwdriver from the release hole.
Checking Connections
After the insertion, pull gently on the wire to make sure that it will
not come off and the wire is securely fastened to the terminal block.
To prevent short circuits, insert stripped part of a stranded wire or
the conductor part of a ferrule until it is hidden inside the terminal
insertion hole. (See the following diagram.)
2. Removing Wires from the Push-In Plus Terminal Block
Use the following procedure to remove wires from the terminal block.
The same method is used to remove stranded wires and ferrules.
1. Hold a flat-blade screwdriver at an angle and insert it into the
release hole.
2. With the flat-blade screwdriver still inserted into the release hole,
remove the wire from the terminal insertion hole.
3. Remove the flat-blade screwdriver from the release hole.
3. Recommended Ferrules and Crimp Tools
Recommended Ferrules
Note: 1. Make sure that the outer diameter of the wire coating is
smaller than the inner diameter of the insulation sleeve of
the recommended ferrule.
2. Make sure that the ferrule processing dimensions conform
to the following figures.
Recommended Flat-blade Screwdriver
Use a flat-blade screwdriver to connect and remove wires.
Use the following flat-blade screwdriver.
The following table shows manufacturers and models as of 2015/Dec.
Release hole
Terminal (Insertion) hole
Ferrules
(1)
(2)
(3)
Flat-blade screwdriver
10 to 15°
Applicable wire Ferrule
Con-
ductor
length
(mm)
Recommended ferrules
mm2AWG
Manufactured
by Phoenix
Contact
Manufactured
by
Weidmuller
Manufactured
by
Wago
0.25 24 8 AI0.25-8
H0.25/12 FE-0.25-8N-YE
0.34 22 8 AI0.34-8
H0.34/12 FE-0.34-8N-TQ
0.5 20 8 AI0.5-8 H0.5/14
FE-0.5-8N-WH
0.75 18 8 AI0.75-8
H0.75/14 FE-0.75-8N-GY
1 18 8 AI1-8 H1.0/14
FE-1.0-8N-RD
1.5 16 8 AI1.5-8 H1.5/14
FE-1.5-8N-BK
Recommended crimp tool
CRIMPFOX6
CRIMPFOX6T-F
CRIMPFOX10S
PZ6 roto
Variocrimp4
Model Manufacturer
XW4Z-00B Omron
ESD0.402.5 Wera
SZF 0.42.5 Phoenix Contact
0.42.575 302 Wiha
AEF.2.575 Facom
210-719 Wago
SDI 0.42.575 Weidmuller
(1)
(2)
(3)
10 to 15°
Flat-blade screwdriver
2.1 mm max. 2.7 mm max.
8 mm
FrontSide
0.4 mm
2.5 mm dia.
2.5 mm
50
E5@C/E5@C-B
51
Three-year Guarantee
Period of Guarantee
The guarantee period of the Unit is three years starting from the date
the Unit is shipped from the factory.
Scope of Guarantee
The Unit is guaranteed under the following operating conditions.
1. Average Operating Temperature
(see note): 10°C to 50°C
2. Mounting Method: Standard mounting
(Mounted to panel or DIN Track.)
Example: Mounted to Panel
Note: Average Operating Temperature
Refer to the process temperature of the Unit mounted to a
control panel and connected to peripheral devices on condition
that the Unit is in stable operation, sensor input type K is
selected for the Unit, the positive and negative thermocouple
input terminals of the Unit are short-circuited, and the ambient
temperature is stable.
Should the Unit malfunction during the guarantee period, OMRON
shall repair the Unit or replace any parts of the Unit at the expense of
OMRON.
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ERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE
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