Shimaden SRS0 Series, Instruction Manual

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http://www.shimaden.co.jp
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For questions, please contact
YOUR LOCAL AGENT or
exp-dept@shimaden.co.jp
MSRS0-E53-A
Oct. 2018
Contents may be changed for improvements without notice.
Copyright© SHIMADEN CO., LTD. All rights reserved
SRS0 Series
Instruction manual
ڦ Operation mode setting
This shows the setting method of operation mode, the PID control and ON/OFF (2-position) control.
Ɣ
PID control mode
When shipped from our factory, PID control mode is set.
Execute auto-tuning (automatic PID calculation) according to the following procedures.
While in AT execution, AT lamp lights and system operation is actually executed. Execute under the
condition that all systems are operable.
When AT lamp lights out, it is a sign that AT has ended. After AT ends, P/I/D/MR parameter is overwritten
with the appropriate value.
Ɣ ON/OFF (2-position) control mode
In switching to ON/OFF control mode, please set proportional band (P) to OFF.
Ğ
Basic screen
ࠉ jm
ࠉࠉ h
0-0
ࠉ ‰~š
1-0
“ ࠉ
2-0
‡“‘ ࠉ
ࠉ ‰~š
ģ
ģ
2-1
‡i ࠉࠉ
ࠉࠉ uh
2-2
‘i ࠉ
ࠉࠉ jh
㻌 Ģ
㼛㼞㻌
㻌 ġ
2-1
‡i ࠉࠉ
ࠉ —
Ğ
㻌 Ģ
㼛㼞
㻌 ġ
2-2
‘i ࠉ
ࠉࠉ ih
Set to OFF proportional band that corresponds to SV No.
(Select OFF through
ġ
key and confirm through
ģ
key.)
Set “hysteresis” while on ON-OFF operation.
(Select “hysteresis” through
Ģ 㧖 ġ keys and confirm through ģ key.)
Ɣ Output characteristics switching
This shows the switching setting method of control output characteristics.
Example) In switching control output from heating to cooling characteristics.
ࠉ jm
ࠉࠉ h
0-0
“–“š
ࠉ ‰~š
5-0
㻌 ģ
5 push
|š ࠉ
ࠉࠉ ™|
5-3
㻌 Ģ
or
㻌 ġ
|š ࠉ
ࠉࠉ ‘|
5-3
㻌 Ğ
Multiple push
䕺㻌 Characteristics Code
Heating (humidification) characteristics: ™|
Cooling (dehumidification) characteristics:
‘|
Changing control output characteristics from heating to cooling.
(Select
‘|
through
Ģ 㧖 ġ
keys and confirm through
ģ
key.)
Ɣ
Measured value (PV) correction
This shows the correction method of measured value (PV).
Example) When making a subtraction correction by +1.0°C
ࠉ jm
ࠉࠉ h
0-0
“–“š
ࠉ ‰~š
5-0
ģ
5 push
‡Œ¦
ࠉࠉ h
5-7
㻌 Ģ
or
㻌 ġ
‡Œ¦
ࠉ ž i
5-7
Ğ
Multiple push
On the PV bias value setting screen, subtraction correction is made by +1.0°C.
(Select
ž i
by
Ģ 㧖 ġ
keys and confirm by
ģ
key.)
ڦ
Event output setting
This shows event action mode setting and action position setting method.
Before setting event action position, first set event action mode.
By changing event action mode, registered data related to the event are initialized.
Example) When measured value (PV) is target value (SV) + 10.0°C, event output 1 (EV1) is engaged.
When measured value (PV) is target value (SV) - 5.0°C, event output 2 (EV2) is engaged. Both EVs are
engaged at the hysteresis of 1.0°C.
Example) When measured value (PV) exceeds 100.0°C, event output 1 (EV1) is
operated at the hysteresis of 3.0°C.
EV1 higher limit deviation alarm action configuration
Set action mode of event output 1 (EV1) to higher limit absolute
value (
|
).
(Select | through Ģ 㧖 ġ keys and confirm through ģ key.)
Set hysteresis of ON position and OFF position of event output 1.
(Select
k through Ģ 㧖 ġ keys and confirm through ģ key.)
Set action point of event output 1 at 100.0°C.
(Select
ihh through Ģ 㧖 ġ keys and confirm through ģ key.)
Ɣ Event type codes (use in 4-1 screen and 4-7 screen)
EV1 higher limit deviation alarm action configuration EV2 lower limit deviation alarm action configuration
ی Event action mode
Refer to “Alarm action configuration” and “Event type codes.”
Set action mode of Event Output 1 (EV1) to higher limit deviation
alarm (
‘
).
(Select ‘ through Ģ 㧖 ġ keys and confirm through ģ key.)
Set hysteresis of Event Output 1 ON position and OFF position.
(Select
i
through
Ģ 㧖 ġ
keys and confirm through
ģ
key.)
Set Event 2 (EV2) action mode to lower deviation alarm ( ‘ ).
(Select ‘ through Ģ 㧖 ġ keys and confirm through ģ key.)
Set hysteresis of Event Output 2 ON position and OFF position.
(Select
i
through
Ģ 㧖 ġ
keys and confirm through
ģ
key.)
Set Event Output 1 action point at target value (SV) +10.0°C.
(Select
ih through Ģ 㧖 ġ keys and confirm through ģ key.)
Set Event Output 2 action point at target value (SV) -5.0°C.
(Select
ž m through Ģ 㧖 ġ keys and confirm through ģ key.)
Code Types of event Remarks
–—–
(non) No selection
‘
(Hd) Higher limit deviation alarm EV1 initial value
‘
(Ld) Higher limit deviation alarm EV2 initial value
—‘ (od) Outside higher/lower limit deviation alarm
“‘ (id) Inside higher/lower limit deviation alarm
| (HA) Higher limit absolute value alarm
| (LA) Lower limit absolute value alarm
‰— (So) Scaleover
™›– (run) RUN signal (program being executed)
™—ši (rot1) Control output inverted output Only for contact output
‰š‡‰
(StPS) Step signal Only for program control
‡š–‰
(PtnS) Pattern signal Only for program control
~–‘‰
(EndS) Program end signal Only for program control
— ‘
(HoLd) Hold signal Only for program control
‡™—€
(ProG) Program signal Only for program control
›¦‰ (u_SL) Upslope signal Only for program control
‘¦‰ (d_SL) Downslope signal Only for program control
€‹| (GUA) Guarantee soak Only for program control
Action
zone
EV1
Hysteresis
OFF
ON
Low
temperature
High
temperature
+100°C
3.0°C
Ğ 㻌
Multiple push
jm
h
0-0
0-12
|š
—
Ģ
or
ġ
0-12
|š
—–
Basic screen
SV EV
Hysteresis
OFF
ON
Low
temperature
High
temperature
Action
zone
1.0°C
-5°C
Action
zone
SV EV
Hysteresis
OFF
ON
Low
temperature
High
temperature
+10.0°C
1.0°C
T1810 ***
ģ
4 push
jm
h
0-0
~Œ‘“
‰~š
4-0
Ğ 㻌
~i¦‘
jh
4-2
~Œ‘“
‰~š
4-0
ģ
2 push
jm
h
0-0
Ğ
Multiple push
0-10
~i|
jhhh
0-10
~i|
ihh
Ģ
or
ġ
~i¦•
‘
4-1
~i¦•
|
4-1
Ģ
or
ġ
~i¦‘
k
4-2
Ģ
or
ġ
Å
Å
Multiple push
ž m
~i‘
ih
jm
~Œ‘“
‰~š
4-0
jm
h
0-0
Basic screen
0-11
~j ‘
qqq
0-11
~j ‘
Ģ
or
ġ
0-10
~i‘
jhhh
0-10
Ģ
or
ġ
Ğ
Multiple push
ģ
2 push
~j¦‘
4-8
jh
Ģ
or
ġ
~j¦‘
4-8
i
~j¦•
‘
4-7
Ģ
or
ġ
~j¦•
‘
4-7
~i¦‘
jh
4-2
Ģ
or
ġ
~i¦‘
i
4-2
~i¦•
‘
4-1
‘
Ğ
ģ
4 push
Å
Å
Multiple push
Å
Å
Multiple push
Å
0-0
~Œ‘“
4-0
4-1
Ģ
or
ġ
‰~š
h
~i¦•