Instructions

Table Of Contents
5
2.5 Panel Mounting
2.2 Installation onto the Rail
c
During installation onto the rail, care should be taken to avoid injury from
mechanical part of the system. These precautions for the safety of the person
who does the rai mounting.
The unit is designed for rail mounting.
1- Put into the unit upper side of the
rail properly.
2- Pull down the rail lock apparatus
via a screw driver.
3.-Push the unit from the underside
for mounting to the rail.
2.3 Removing from the Rail
c
1- Pull down the rail lock apparatus
via a screw driver.
2- Pull the unit from the underside to
seperate the rail lock apparatus from
the rail
3.- Pull up the unit to remove from the
rail.
Before starting to remove the unit from the rail, power off the unit and the
related system.
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Supply Voltage Input
3. Electrical Wiring Diagram
3.1 Supply Voltage Input Connection of the Device
1
NL
2
Y
c
a
Make sure that the power supply voltage is same indicated on the instrument.
Switch on the power supply only after that all the electrical connection have been completed.
Supply voltage range must be determined in order. While installing the unit, supply voltage range must be
controlled and appropriate supply voltage must be applied to the unit. Controlling prevents damages in unit
and system and possible accidents as a result of incorrect supply voltage.
There is no power supply switch or fuse on the device. So a power supply switch and a fuse must be added
to the supply voltage input. Power supply switch and fuse must be put to a place where user can reach
easily. Power supply switch must be two poled for seperating phase and neutral. On/Off condition of power
supply switch is very important in electrical connection. On/Off condition of power supply switch must be
signed for preventing the wrong connection.
Relay or SSR Driver Output
For SSr Output
Temperature Sensor Input
(TC, NTC, PTC, PT-100 or PT-1000)
Supply Voltage
230 V V (± 15%) 50/60 Hz or
115 V V (± 15%) 50/60 Hz or
24 V V (± 15%) 50/60 Hz or
24 V W (-15%,+10%) 50/60 Hz or
Note-2
External
Fuse
(1 A T)
Note-1
Power
Supply
Switch
10...30 V - 1.5 WZ
Note-1:
W
“L” is (+), “N” is (-) for 10...30V Z and
24V Supply Voltage
Note-2: External Fuse is recommended
Note-3: External fuse must be on phase connection in
Vsupply input.
Note-4: External fuse must be on (+) line connection in
Zsupply input.
230 V V ( ± %15 ) 50/60 Hz - 1.5 VA
115 V V ( ± %15 ) 50/60 Hz - 1.5 VA
24 V V ( ± %15 ) 50/60 Hz - 1.5 VA
10...30 V - 1.5 WZ
24 V W ( -%15, +%10 ) 50/60 Hz - 1.5 VA
7
3.2.2 PTC and NTC Connection
3.2.1 TC (Thermocouple) Connection
3.2 Temperature Sensor Input Connection
67
TC
ii
ii
PTC
Input resistance is greater than 10M W.
ii
67
Pay attention the cable colours of PTC probe while doing the PTC probe
connection.
ii
WHITERED
Connect the wires with the polarity as shown in
the figure left.
Always use compensation wire corresponding
to the thermocouple used. If present, the shield
must be connected to a proper ground.
Input resistance is greater than 10M W.
NTC
67
Input resistance is greater than 10M W.
ii
67
3.2.3 PT-100 and PT-1000 Connection
PT-1000
67
PT-100
8
Decrement
Button
Note-1: If increment or decrement button is pressed for 5 seconds continuously, increment and
decrement number become 10, if increment or decrement button is pressed for 10 seconds
continuously, increment and decrement number become 100.
4. Front Panel Definition and Accessing to the Menus
When power is first applied to the temperature controller, software revision number is shown on
the displays.
4.1 Observation of Software Revision on the Displays
“ r” ÞRevision
Software
revision
Number
Operation Screen is shown
If there is an unexpected situation while opening the device, power off the
device and inform a qualified personnel.
c
Note-1
It is used to
increase the value
and access to the
parameter in
programming
mode.
Note-1
It is used to enter to
the SET value
changing mode,
programming mode
and used as OK
button.
Led indication of Output
is active (If blinks, Compressor
protection time is active)
Led indication of SET value
changing mode
Led indication of
Programming Mode is active
Displays Temperature
Value,Temperature Set
Value and Parameters
9
When SET button is
pressed, SV LED
lights on and SET
value is shown on the
displays.
Change the SET value with
increment and decrement buttons.
Press SET button for saving the
SET value
SV LED lights off and main
operation screen is shown.
4.2 Changing and Saving Set Value
Operation Screen
SET Value Screen
SET Value Screen
Operation Screen
SET value is can be adjusted from minimum set value parameter to maximum set value
parameter , Which can be accessed from programming parameters.
i
If no operation is performed in Set value mode for 20 seconds, device turns to
operation screen automatically.
4.3 Program Parameters
i
, , , , and parameters are observed if
Operating type is selected “ Cooling ”. If operating type is selected “ Heating ”
beginning of the parameters list is shown.
Hysteresis Parameter for Output ( Default = 1 )
1 to 100 °C for TC Type Devices,
1 to 100 °C for PT-100 (-50°C, 400°C) and PT-1000 (-50°C, 400°C),
0.1 to 10.0 °C for PT-100 (-19.9°C, 99.9°C) and PT-1000 (-19.9°C, 99.9°C),
1 to 20 °C for PTC (-50°C, 150°C) and NTC (-50°C, 100°C),
0.1 to 10.0 °C for PTC (-19.9°C, 99.9°C) and NTC (-19.9°C, 99.9°C)
Minimum Set Value Parameter ( Default =Minimum value of device scale )
Set value can not be lower than this value. This parameter value can be adjusted
from minimum value of device scale to maximum set value parameter
Maximum Set Value Parameter ( Default = Maximum value of device scale )
Set value can not be greater than this value. This parameter value can be adjusted
from minimum set value to maximum value of the device scale
Process Offset Parameter ( Default = 0 )
-100 to 100 °C for TC Type Devices,
-100 to 100 °C for PT-100 (-50°C , 400°C) and PT-1000 (-50°C , 400°C),
-10.0 to 10.0 °C for PT-100 (-19.9°C, 99.9°C) and PT-1000 (-19.9°C, 99.9°C),
-20 to 20 °C for PTC (-50°C, 150°C) and NTC (-50°C, 100°C),
-10.0 to 10.0 °C for PTC (-19.9°C, 99.9°C) and NTC (-19.9°C, 99.9°C)
Switch On Delay After Power On Parameter ( Default = 0 )
When power is first applied to the device, this time delay must be expired for
activation of the compressor. It can be adjusted from 0 to 20 minutes
Compressor Stop/Start Time Delay Parameter ( Default =0 )
When compressor is inactive, this time delay must be expired for activation of the
compressor. It can be adjusted from 0 to 20 minutes.
Probe Defect Parameter ( Default = 0 )
Compressor is active during this time period in case of probe defect
( Default = 0 ) If Probe Defect Parameter is , then this parameter
can be observed. It can be adjusted from 0 to 99.
Compressor is OFF in case of probe defect
Compressor is ON in case of probe defect
Compressor operates periodically according to and time
periods in case of probe defect.
Compressor Start/Start Time Delay Parameter ( Default =0 )
This time delay must be expired between two activation of the compressor.
It can be adjusted from 0 to 20 minutes.
Operating Type Parameter ( Default = 0 )
Heating
Cooling
Compressor is inactive during this time period in case of probe defect
( Default = 0 ) If Probe Defect Parameter is , then this parameter
can be observed. It can be adjusted from 0 to 99.
Programming Mode Accessing Password ( Default =0 )
It is used for accessing to the programming mode. It can be adjusted from 0 to 999.
If it is selected 0, password is not entered for accessing to the parameters.
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4.4 Working Graphics of ESM-1510N Temperature Controller
1-If Operating Type Parameter Value = 1 (Cooling),
Switch On Delay After Power On Parameter Value ³ 1 ,
Compressor Stop/Start Time Delay Parameter Value ³ 1 and
Compressor Start/Start Time Delay Parameter Value ³ 1;
Power
Time
Hst
SET
Time
Output
Time
Time
Output
Led
°C
ON
OFF
Temperature
Value
Temperature Control Output
SET
HSt
Time
HSt HSt
Time
2-If Operating Type Parameter Value = 0 (Heating),
i
In ON/OFF control algorithm, temperature value is tried to keep equal to set
value by opening or closing the last control element. ON/OFF controlled system,
temperature value oscillates continuously. Temperature value’s oscillation period or
amplitude around set value changes according to controlled system. For reducing
oscillation period of temperature value, a threshold zone is formed below or around
set value and this zone is named hysteresis. Action of control output is described with
figures above.
11
12
4.5 Easy Access Diagram Of Programming Mode Parameters
If Operating Type Parameter Value
= 1 (Cooling)
Operation Screen
Hysteresis Parameter
Programming Mode
Entering Screen
Password Entering
Screen
Press SET/OK button for accessing parameters
Probe Defect
Parameter
Password Entering
Screen
Minimum Set Value
Parameter
Maximum Set Value
Parameter
Process Offset
Parameter
Operating Type Parameter
Switch On Delay After
Power On Parameter
Compressor Stop/Start
Time Delay Parameter
Compressor Start/Start
Time Delay Parameter
Compressor is active
during this time period
In case of probe defect
Compressor is inactive
during this time period
In case of probe defect
Programming Mode
Accessing Password
1
3
2
1
2
3
(+)
(-)
L(+) N(-)
2
3
41
5
6
7
TC
NTC, PTC, PT-100, PT1000
ÇIKIÞ
5 A@250 V V
NONCC
aa
5 sn
Enter Password
with increment
and decrement
buttons