ESM-7720 - Temperature Controller Emko - Free user manual and instructions
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| Product type | PID temperature controller |
| Brand | Emko |
| Model | ESM-7720 |
| Dimensions (W x H x D) | 72 x 72 x 95.5 mm |
| Weight | 270 g |
| Power supply | 230 V~ 50/60 Hz (±15 %) |
| Process display | Red LED 4 digits, 13.2 mm |
| Setpoint display | Green LED 4 digits, 9.1 mm |
| Measurement inputs | Thermocouple (J, K, R, S, T) and RTD (PT100) |
| Accuracy | ±0.25 % of full scale |
| Process output | Relay 5 A / 250 V~ or SSR 24 mA / 12 V= |
| Alarm output | Relay 5 A / 250 V~ or SSR 24 mA / 12 V= |
| Control modes | ON/OFF, P, PI, PD, PID with adaptive tuning |
| Protection rating | IP65 (front panel), IP20 (rear) |
| Operating temperature | 0 to 50 °C |
| Allowable humidity | 0 to 90 % RH non-condensing |
| Warranty | 2 years |
| Maintenance and cleaning | Damp cloth or ethyl alcohol; avoid hydrocarbon solvents |
| Manufacturer | Emko Elektronik, Bursa, Turkey |
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USER MANUAL ESM-7720 Emko
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Five black electronic devices with blue LED indicators on a gradient orange background, no visible text or symbols on the devices themselves.PID TEMPERATURE CONTROL UNITS ESM-XX20
ESM-9920, ESM-9420, ESM-7720, ESM-4920, ESM-4420 PID Temperature Control Units
- 4 digit process (PV) and 4 digit set (SV) display
- Process input (TC, RTD)
- Programmable ON/OFF, P, PI, PD and PID control forms
- Adaptation of PID Coefficients to the system with Self-Tune operation (Step Response Tuning)
- Programmable Heating or Cooling Functions for Control Output
- Selectable Alarm Functions for Alarm Output
ESM series temperature controllers are designed for measuring and controlling a process value. They can be used in many applications with their TC and RTD temperature measurement input, multi-function control outputs, selectable alarm functions.
They are mainly used in glass, plastic, petro-chemistry, textile, automotive and machine production industries. Accurate and advanced controlling is performed with selectable ON-OFF, P, PI, PD, PID and Self Tune PID functions.
Specifications
Process Input: TC, RTD
Thermocouple (TC): J, K, R, S and T (IEC584.1)(ITS90) Thermoresistance (RTD): PT-100 (IEC751)(ITS90)
Measurement Range : Please refer to Table-1 for selection of input type and scale.
Accuracy : ± 0.25% of scale for thermocouple and thermoresistance
Cold Junction Compensation : Automatically ±0.1°C/1°C
Line Compensation : Maximum 10 Ohm
Sensor Break Protection : Upscale
Sampling Cycle : 3 samples per second
Input Filter : 1.0 second.
Control Form : ON/OFF, P, PI, PD or PID (Control form can be programmed by the user.)
Output
Process Output : Relay (5A@250V\~at resistive load) or SSR
Driver Output (Maximum 24mA, Max. 12V ---)
Alarm Output : Relay(5A@250V\~ at resistive load) or SSR Driver
Output(Alarm Output - 2) (Maximum 24mA, Max. 12V ---)
Supply Voltage
24V ∼ (±15%) 50/60 Hz - 3VA or 24V= (±%15) -3W
230V ∼ ( ±15% ) 50/60 Hz - 3VA
115V ∼ (±15%) 50/60 Hz - 3VA
24V ∼ (±15%) 50/60 Hz - 3VA
(It must be determined in order)
Display
Process Display :
ESM-4420 : 10.1 mm Red 4 digit LED Display
ESM-4920 : 13.2 mm Red 4 digit LED Display
ESM-7720 : 13.2 mm Red 4 digit LED Display
ESM-9420 : 10.1 mm Red 4 digit LED Display
ESM-9920 : 19 mm Red 4 digit LED Display
Set Value Display :
ESM-4420 : 8 mm Green 4 digits LED Display
Environmental Ratings and Physical Specifications
Operating Temperature : 0...50°C
Humidity : 0-90%RH (none condensing)
Protection Class : IP65 at front, IP20 at rear
Weight : ESM-4420 : 220 gr. , ESM-4920 : 240 gr.
ESM-7720 : 270 gr. , ESM-9420 : 230 gr.
ESM-9920 : 340 gr.
Dimension :
ESM-4420 : (48 x 48mm, Depth : 95mm)
ESM-4920 : (96 x 48mm, Depth : 94.5mm)
ESM-7720 : (72 x 72mm, Depth : 95.5mm)
ESM-9420 : (48 x 96mm, Depth : 94.5mm)
ESM-9920 : (96 x 96mm, Depth : 96mm)
Panel CutOut :
ESM-4420 : (46 x 46mm)
ESM-4920 : (92 x 46mm)
ESM-7720 : (69 x 69mm)
ESM-9420 : (46 x 92mm)
ESM-9920 : (92 x 92mm)
Electrical Wirings
ESM-4420
flowchart
graph TD
A["Pt-100"] --> B["Process Input"]
B --> C["1"]
B --> D["2"]
B --> E["3"]
C --> F["4"]
D --> G["5"]
E --> H["6"]
F --> I["Max. 24 mA, 12V"]
G --> I
H --> I
I --> J["Output-3 (SSR Output)"]
J --> K["+"]
J --> L["-"]
M["TC"] --> N["Process Input"]
O["NO"] --> P["8"]
Q["(-)"] --> R["9"]
S["(+)"] --> T["10"]
U["5A@250V~"] --> V["9"]
W["5A@250V~"] --> X["11"]
Y["NO"] --> Z["12"]
AA["13"] --> AB["14"]
AC["Output-1 (Process Output or Alarm Output-2) Note-1"] --> AD["Output-2 (Alarm Output-1)"]
AE["Supply Switch"] --> AF["230 V~ 50/60 Hz"]
AG["L 1A ~ T Fuse"] --> AH["N"]
AH --> AI["L"]
AJ["CAT II"] --> AK["Max. 24 mA, 12V"]
ESM-4920
flowchart
graph TD
A["Process Input 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15"] --> B["TC"]
B --> C["Pt-100"]
C --> D["Output-3 (SSR Output)"]
D --> E["Max. 24 mA, 12V"]
E --> F["+"]
F --> G["-"]
G --> H["Output-1 (Process Output or Alarm Output-2)"]
H --> I["Note-1"]
I --> J["(-) (+)"]
J --> K["Output-2"]
K --> L["NCNO C"]
L --> M["5A@250V~"]
M --> N["5A@250V~"]
N --> O["NCNO C"]
O --> P["Output-2"]
P --> Q["NCNO C"]
Q --> R["Output-2"]
R --> S["NCNO C"]
S --> T["Output-2"]
T --> U["NCNO C"]
U --> V["Output-2"]
V --> W["Output-2"]
W --> X["Output-2"]
X --> Y["Output-2"]
Y --> Z["Output-2"]
Z --> AA["Output-2"]
AA --> AB["Output-2"]
AB --> AC["Output-2"]
AC --> AD["Output-2"]
AD --> AE["Output-2"]
AE --> AF["Output-2"]
AF --> AG["Output-2"]
AG --> AH["Output-2"]
AH --> AI["Output-2"]
AI --> AJ["Output-2"]
AJ --> AK["Output-2"]
AK --> AL["Output-2"]
AL --> AM["Output-2"]
AM --> AN["Output-2"]
AN --> AO["Output-2"]
AO --> AP["Output-2"]
AP --> AQ["Output-2"]
AQ --> AR["Output-2"]
AR --> AS["Output-2"]
AS --> AT["Output-2"]
AT --> AU["Output-2"]
AU --> AV["Output-2"]
AV --> AW["Output-2"]
AW --> AX["Output-2"]
AX --> AY["Output-2"]
AY --> AZ["Output-2"]
AZ --> BA["Output-2"]
BA --> BB["Output-2"]
BB --> BC["Output-2"]
BC --> BD["Output-2"]
BD --> BE["Output-2"]
BE --> BF["Output-2"]
BF --> BG["Output-2"]
BG --> BH["Output-2"]
BH --> BI["Output-2"]
BI --> BJ["Output-2"]
BJ --> BK["Output-2"]
BK --> BL["Output-2"]
BL --> BM["Output-2"]
BM --> BN["Output-2"]
BN --> BO["Output-2"]
BO --> BP["Output-2"]
BP --> BQ["Output-2"]
BQ --> BR["Output-2"]
BR --> BS["Output-2"]
BS --> BT["Output-2"]
BT --> BU["Output-2"]
BU --> BV["Output-2"]
BV --> BW["Output-2"]
BW --> BX["Output-2"]
BX --> BY["Output-2"]
BY --> BZ["Output-2"]
BZ --> CA["Output-2"]
CA --> CB["Output-2"]
CB --> CC["Output-2"]
CC --> CD["Output-2"]
CD --> CE["Output-2"]
CE --> CF["Output-2"]
CF --> CG["Output-2"]
CG --> CH["Output-2"]
CH --> CI["Output-2"]
CI --> CJ["Output-2"]
ESM-7720
flowchart
graph TD
A["Pt-100"] --> B["Process Input"]
B --> C["1"]
B --> D["2"]
B --> E["3"]
C --> F["4"]
D --> G["5"]
E --> H["6"]
F --> I["7"]
G --> J["8"]
H --> K["9"]
I --> L["10"]
J --> M["11"]
M --> N["Output-3 (SSR Output)"]
N --> O["Max. 24 mA, 12V"]
P["5A@250V~"] --> Q["Output-1 (Process Output or Alarm Output-2) Note-1"]
R["5A@250V~"] --> S["Output-2 (Alarm Output-1)"]
T["(-)"] --> U["(-)"]
V["NC"] --> W["NC"]
X["NO"] --> Y["12"]
Z["C"] --> AA["13"]
AB["NO"] --> AC["14"]
AD["C"] --> AE["15"]
AF["NO"] --> AG["16"]
AH["NC"] --> AI["17"]
AJ["18"] --> AK["19"]
AL["20"] --> AM["21"]
AN["21"] --> AO["22"]
AP["N"] --> AQ["Supply Switch"]
AR["L"] --> AS["1A ~ T Fuse"]
AT["230 V~ 50/60 Hz"] --> AU["Output-1"]
ESM-9420
flowchart
graph TD
A["Process Input 1-2-3-4-5-6 7-8-9-10-11-12-13-14-15"] --> B["TC"]
B --> C["Pt-100"]
C --> D["Output-3 (SSRO)"]
D --> E["Output-1 (Process Output or Alarm Output-2)"]
E --> F["Note-1"]
F --> G["Output-2 (Alarm Output-1)"]
G --> H["NCNO C"]
H --> I["Output-2"]
I --> J["NCNO C"]
J --> K["Output"]
K --> L["Supply Switch"]
L --> M["230 V~ 50/60 Hz"]
N["5A@250V~"] --> O["Output-1"]
P["(-) (+)"] --> Q["Output-2"]
R["N"] --> S["Supply Switch"]
T["L"] --> U["Output"]
style A fill:#f9f,stroke:#333
style K fill:#f9f,stroke:#333
style L fill:#ccf,stroke:#333
style M fill:#cfc,stroke:#333
style N fill:#fcc,stroke:#333
style O fill:#cff,stroke:#333
style P fill:#ffc,stroke:#333
style Q fill:#ffc,stroke:#333
style R fill:#fcc,stroke:#333
ESM-9920
flowchart
graph TD
A["Process Input Max. 24 mA, 12V"] --> B["Output-3 (SSRO)"]
B --> C["Output-1 (Process Output or Alarm Output-2)"]
C --> D["Output-2"]
D --> E["NCNO C"]
E --> F["NCNO C"]
F --> G["Output"]
H["PT-100"] --> I["+"]
I --> J["-"]
J --> K["(-)"]
K --> L["(+)"]
M["5A@250V~"] --> N["5A@250V~"]
O["N"] --> P["L"]
Q["1A ~ T Fuse"] --> R["Supply Switch"]
S["230 V~ 50/60Hz"] --> T["Ground"]
Note-1: If process output is SSR driver output, pay attention to the (+) and (-) pins while doing the connection of the device
ESM-4420
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EMKO ESM-4420 °C 8.8.8.8 °F PO PS A01 AS1 A02 AS2 Temperature Controller PSET ASET 48 mm/ 1.89 inch Maximum 5mm / 0.2 inch 48 mm/ 1.89 inch 11 ± 1 mm /0.43 inch 84 mm / 3.31 inchESM-4920
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Temperature Controller ESM - 4920 °C 8.8.8.8 °F PD PS 8.8.8.8 A01 A02 A03 A04 PSET P AS1 AS2 ASET Maksimum 15mm / 0.59 inch 48mm/ 1.89 inch 96mm / 3.78 inch 84mm / 3.31 inch 10.5 ± 1 mm /0.43 inchESM-7720
text_image
ESM-7720 °C 8.8.8.8 °F PD PS AO1 AS1 8.8.8.8 AO2 AS2 PSRT A5RT P P A5RT Temperature Controller 72mm / 2.83 inch 72mm / 2.83 inch Maximum 15mm / 0.59 inch 11.5 ± 1 mm /0.45 inch 84 mm / 3.31 inch
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ESM-9420 Temperature Controller 96mm / 3.78 inch Maximum 15mm / 0.59 inch 48mm / 1.89 inch ESM-9420 84 mm / 3.31 inch 10.5 ± 1 mm / 0.41 inch
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ESM-9920 °C 8.8.8.8 °F PO FB 8.8.8.8 A0.1 A0.1 A0.2 A0.2 PSET ASET Temperature Controller ESM-9920 96mm / 3.78 inch 96mm / 3.78 inch
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Maximum 15 mm / 0.59 inch 84 mm / 3.31 inch12 ± 1 mm /0.47 inchPanel Mounting
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8.8.8 8.8.8 Temperature Control 1 2 3 4 51-Before mounting the device in your panel, make sure that the cutout is of the right size.
2-Check front panel gasket position
3-Insert the device through the cutout. If the mounting clamps are on
the unit, put out them before inserting the unit to the panel.
4-Insert the unit in the panel cut-out from the front side.
5- Insert the mounting clamps to the holes that located top and bottom sides of device and screw up the fixing screws until the unit completely immobile within the panel.
Access and Change Set Values
flowchart
graph TD
A["Main Screen"] --> B["Press PSET Button."]
B --> C["Press increment or decrement button to change Process Set value."]
C --> D["Main Screen"]
D --> E["Press ASET/OK Button to save new Process set value and return the main screen."]
E --> F["Press ASET/OK Button."]
F --> G["Press increment or decrement button to change Alarm1 Set value."]
G --> H["Press ASET/OK Button to save new Alarm set value and return the main screen."]
H --> I["Press increment or decrement button to change Alarm2 Set value."]
I --> J["Press ASET/OK Button to save new Alarm set value and return the main screen."]
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Main Screen °C 30 % 250 P ABTNote: User can exit from Set Value section without saving the values by pressing (2) button. If no operation for 120 seconds, device automatically exits from Set Value section.
Easy Access Diagram For Program Parameters
flowchart
graph TD
A["To enter Program menu press"] --> B["Press ASET/OK Button to access Password Screen."]
B --> C["Enter Password with increment or decrement buttons."]
C --> D["Approve password with ASET/OK Button."]
D --> E["Password ScreenMain Screen"]
E --> F["After 5 sec."]
F --> G["Post-Program menu press"]
G --> H["Press ASET/OK Button to access Password Screen."]
H --> I["Enter Password with increment or decrement buttons."]
I --> J["Approve password with ASET/OK Button."]
J --> K["Post-Program ScreenMain Screen"]
K --> L["After 5 sec."]
L --> M["Post-Program menu press"]
M --> N["Press ASET/OK Button to access Password Screen."]
N --> O["Enter Password with increment or decrement buttons."]
O --> P["Approve password with ASET/OK Button."]
P --> Q["Post-Program ScreenMain Screen"]
Q --> R["After 5 sec."]
R --> S["Post-Program menu press"]
S --> T["Press ASET/OK Button to access Password Screen."]
T --> U["Enter Password with increment or decrement buttons."]
U --> V["Approve password with ASET/OK Button."]
V --> W["Post-Program ScreenMain Screen"]
W --> X["After 5 sec."]
X --> Y["Post-Program menu press"]
Y --> Z["Press ASET/OK Button to access Password Screen."]
Z --> AA["Enter Password with increment or decrement buttons."]
AA --> AB["Approve password with ASET/OK Button."]
AB --> AC["Post-Program ScreenMain Screen"]
AC --> AD["After 5 sec."]
AD --> AE["Post-Program menu press"]
AE --> AF["Press ASET/OK Button to access Password Screen."]
AF --> AG["Enter Password with increment or decrement buttons."]
AG --> AH["Approve password with ASET/OK Button."]
AH --> AI["Post-Program ScreenMain Screen"]
AI --> AJ["After 5 sec."]
AJ --> AK["Post-Program menu press"]
AK --> AL["Press ASET/OK Button to access Password Screen."]
AL --> AM["Enter Password with increment or decrement buttons."]
AM --> AN["Approve password with ASET/OK Button."]
AN --> AO["Post-Program ScreenMain Screen"]
AO --> AP["After 5 sec."]
AP --> AQ["Post-Program menu press"]
AQ --> AR["Press ASET/OK Button to access Password Screen."]
AR --> AS["Enter Password with increment or decrement buttons."]
AS --> AT["Approve password with ASET/OK Button."]
AT --> AU["Post-Program ScreenMain Screen"]
AU --> AV["After 5 sec."]
AV --> AW["Post-Program menu press"]
AW --> AX["Press ASET/OK Button to access Password Screen."]
AX --> AY["Enter Password with increment or decrement buttons."]
AY --> AZ["Approve password with ASET/OK Button."]
AZ --> BA["Post-Program ScreenMain Screen"]
BA --> BB["After 5 sec."]
BB --> BC["Post-Program menu press"]
BC --> BD["Press ASET/OK Button to access Password Screen."]
BD --> BE["Enter Password with increment or decrement buttons."]
BE --> BF["Approve password with ASET/OK Button."]
BF --> BG["Post-Program ScreenMain Screen"]
BG --> BH["After 5 sec."]
BH --> BI["Post-Program menu press"]
BI --> BJ["Press ASET/OK Button to access Password Screen."]
BJ --> BK["Enter Password with increment or decrement buttons."]
BK --> BL["Approve password with ASET/OK Button."]
BL --> BM["Post-Program ScreenMain Screen"]
BM --> BN["After 5 sec."]
BN --> BO["Post-Program menu press"]
BO --> BP["Press ASET/OK Button to access Password Screen."]
BP --> BQ["Enter Password with increment or decrement buttons."]
BQ --> BR["Approve password with ASET/OK Button."]
BR --> BS["Post-Program ScreenMain Screen"]
BS --> BT["After 5 sec."]
BT --> BU["Post-Program menu press"]
BU --> BV["PinS FECn"]
BV --> BW["u it oC"]
BW --> BX["PLoL -200"]
BX --> BY["PuPL 900"]
BY --> BZ["SU-L -200"]
BZ --> CA["SU-u 900"]
CA --> CB["PuO F 0"]
CB --> CC["ASET"]
subgraph "After 5 sec."
AD
AE
AF
AG
AH
AI
AJ
AK
AL
AM
AN
AO
AP
AQ
AR
AS
AT
AU
AV
AW
AX
AY
AZ
BA
BB
BC
BD
BE
BF
BG
BH
BI
BJ
BK
BL
BM
BN
BO
BP
BA
AR
AS
AT
AU
AV
AW
AX
AZ
BA
BB
BC
BR
BS
BT
AU
AV
AW
AX
AY
AZ
BA
BB
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BR
BS
BT
AU
AV
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AX
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BC
BR
BS
BT
AU
AV
AW
AX
AY
AZ
BA
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BR
BS
BT
AU
AV
AW
AX
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BA
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BC
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SB
BT
AU
AV
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AX
AZ
BA
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AU
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subgraph "After 5 sec."
AD1["ProS"] <--> AD2["Cont"] <--> AD3["Cout rly"] <--> AD4["PrtS HEAT"] <--> AD5["PrtS Cool"] <--> AD6["CntS anoF"] <--> AD7["CntS Pid"] <--> AD8["tunE no"] <--> AD9["Prbn 10"] <--> AD10["t int 100"] <--> AD11["ASET"] <--> AD12["ASET"] <--> AD13["RuP 1 500"] <--> AD14["ASET"] <--> AD15["Ron 1 0"] <--> AD16["ASET"] <--> AD17["RoF 1 0"] <--> AD18["ASET"] <--> AD19["ASET"] <--> AD20["ASET"] <--> AD21["ASET"] <--> AD22["ASET"] <--> AD23["ASET"] <--> AD24["ASET"] <--> AD25["ASET"] <--> AD26["ASET"] <--> AD27["ASET"] <--> AD28["ASET"] <--> AD29["ASET"] <--> AD30["ASET"] <--> AD31["ASET"] <--> AD32["ASET"] <--> AD33["ASET"] <--> AD34["ASET"] <--> AD35["ASET"] <--> AD36["ASET"] <--> AD37["ASET"] <--> AD38["ASET"] <--> AD39["ASET"] <--> AD40["ASET"] <--> AD41["ASET"] <--> AD42["ASET"] <--> AD43["ASET"] <--> AD44["ASET"] <--> AD45["ASET"] <--> AD46["ASET"] <--> AD47["ASET"] <--> AD48["ASET"] <--> AD49["ASET"] <--> AD50["ASET"] <--> AD51["ASET"] <--> AD52["ASET"] <--> AD53["ASET"] <--> AD54["ASET"] <--> AD55["ASET"] <--> AD56["ASET"] <--> AD57["ASET"] <--> AD58["ASET"] <--> AD59["ASET"] <--> AD60["ASET"] <--> AD61["ASET"] <--> AD62["ASET"] <--> AD63["ASET"] <--> AD64["ASET"] <--> AD65["ASET"] <--> AD66["ASET"] <--> AD67["ASET"] <--> AD68["ASET"] <--> AD69["ASET"] <--> AD70["ASET"] <--> AD71["ASET"] <--> AD72["ASET"] <--> AD73["ASET"] <--> AD74["ASET"] <--> AD75["ASET"] <--> AD76["ASET"] <--> AD77["ASET"] <--> AD78["ASET"] <--> AD79["ASET"] <--> AD80["ASET"] <--> AD81["ASET"] <--> AD82["ASET"] <--> AD83["ASET"] <--> AD84["ASET"] <--> AD85["ASET"] <--> AD86["ASET"] <--> AD87["ASET"] <--> AD88["ASET"] <--> AD89["ASET"] <--> AD90["ASET"] <--> AD91["ASET"] <--> AD92["ASET"] <--> AD93["ASET"] <--> AD94["ASET"] <--> AD95["ASET"] <--> AD96["ASET"] <--> AD97["ASET"] <--> AD98["ASET"] <--> AD99["ASET"] <--> AD100["ASet"]
Note: If user does not do anything for 120 seconds while device is on programming section, device turns to operation screen.
Easy Access Diagram For Sensor Break Output Value
Main Screen
flowchart
graph TD
A["To enter the Sensor Break Output Value, press ASET/OK button for 5 seconds."] --> B["Change the Sensor Break Output Value with increment and decrement buttons."]
B --> C["Press PSET button to exit without saving the value."]
D["Press ASET/OK button to exit and save."] --> E["End"]
Note: If user does not do anything for 120 seconds while device is on this section, device turns to operation screen.
Note-2: Sensor Break Output Value can be adjusted on programming section too.
Tune Operation
Starting the Tune operation
1-Enter to the programming section
2- Select SELF, Auto, funE parameter in Font menu. Press ASET/OK button for saving the parameter and turn to the main operation screen.
3- Observe that "tunE" blinks in set display.
Note- For starting the Tune operation,
Heating Tune Operation: Process value must be lower than process set value at least 5% of full scale EErr
Cooling Tune Operation :Process value must be greater than process set value at least 5% of the full scale. If this condition is not okay, Blinks on the screen for 10 seconds.
Canceling Self Tune operation :
1- If sensor breaks ;
2- If Self Tune operation can not be completed in 8 hours ;
3- While heating Self Tune is running, if process value becomes greater than Process Set value
4- While cooling Self Tune is running, if process value becomes less than Process Set value;
5- While Self Tune operation is running, if user changes the process set value;
Then Self Tune operation is canceled, device continues to run with former PID parameters without changing PID parameters.
Pro5 : Process Menu Parameters
text_image
P_in5 : Process input type selection ; (Default:FEEN ) FECn : J type (Fe,Cu,Ni) Thermocouple , ; -200°C,900°C -328°F,1652°F nCrn : K type (Ni,Cr,Ni) Thermocouple , -200°C,1300°C ; -328°F,2372°F P13r : R type (Pt13%RhPt) Thermocouple , 0°C,1700°C ; 32°F,3092°F P10r : S type (Pt10%RhPt) Thermocouple , 0°C,1700°C ; 32°F,3092°F CuEn : T type (Cu,Cu,Ni) Thermocouple , -200°C,400°C ; -328°F,752°F rtdD : Pt - 100 , -200°C,650°C ; -328°F,1202°F rtdI : Pt - 100-,199.9°C,650.0°C ; -199.9°F,999.9°F Unit : Unit Selection. °C or °F can be chosen. (Default: °C ) PLoL : Operation Scale minimum (Low Lithor) values according to the process input type and scale. (Default: -200) PuPL : Operation Scale Lithor values according to the process input type and scale. (Default: 900)SU-L: Process Set value Low Limit. Minimum set value is defined with this parameter. It changes according to the process input type and scale. (Default: -200)
SU-0 : Process Set value High Limit. Maximum set value is defined with this parameter. It changes according to the process input type and scale. (Default: 900)
P_UoF : Display offset for process value. It can be adjusted from -10% of scale to 10% of scale. It is added to the process display value. (Default: 0)
Note: If process input type selection( P_inS ) is changed, P_LoL , P_uPL ,
SU-L, SU-u, PUoF, ALo1, RuPi, ALo2, RuP2, PSET, ASt1 and ASt2
parameters may need to be updated according to the input type selection.
Conc : Control Menu Parameters
This parameter determines, which output will be Process control output. If rLY is chosen, process output is relay output, if SSr is chosen, process output is SSR output. (Default: Ssr)
Pr-ES : Process Type Selection. It can be HERE or Cool . (Default: HERE )
CntS : Process Control Type Selection. It can be onoF or P_id .(Default: onoF )
tunE : If tune parameter is set to SELF, device start to Self Tune to calculate PID parameters automatically. If tune parameter is set to Auto, device start to Auto Tune to calculate PID parameters automatically. This parameter is shown if = . (Default: no)
Prbn : Proportional band. It can be adjusted from %1 to %100. If CntS = P_id, then this parameter can be observed. (Default: 10.0)
t int : Integral Time. 10 can 360 asjusted. from = , then t5 P.d this parameter can be observed. (Default: 100)
tdEr : Derivative Time. It can be adjusted from = , then Cnt5 P.d this parameter can be observed. (Default: 25.0)
tCon : Output Control Period. If dan 50 adjusted from If then this parameter can be observed. (Default: 10)
HYST : Hysteresis value. It of the S adjusted from %0 ile %50 ( - PULP PLol If CntS=onof, then this parameter can be observed (Default: 3)
5bou : Sensor Break Output Value. %0 to %100. It can be adjusted from (Default: 0.0)
SSET : Soft Start Set value. Device operates in Soft Start mode, until the temperature reaches Soft Start set value. (Default: no)
SSCo : Soft Start Control Output. This parameter determines soft start mode control output percentage. (Default: 10.0)
55CT : Soft Start Control time. This parameter determines soft start mode control time. (Default:1)
: Alarm Menu Parameters
RHS1 : Alarm Hysteresis value.It.can be adjusted from %0 ile %50 of the Scale( R u PL - R Lo L ) (Default: 0)
RES : Alarm Type selection. (Default: PH,R)
ALo1 : Alarm Set Low Limit parameter. It can be adjusted from Operation Scale minimum to Alarm Set High Limit. (Default: 0)
R_uP! : Alarm Set High Limit parameter. It can be adjusted from Alarm Set Low Limit to Operation Scale maximum. (Default: 500)
: Alarm on Delay Time. It can be adjusted from 0 to 9999 seconds. (Default: 0)
RoFi : Alarm off Delay Time. It can be adjusted from 0 to 9998 seconds. If it is higher than 9998, LECH, is seen on the screen and Alarm Latching Output is selected. (Default: 0)
AH52 : Alarm Hysteresis value. It can be adjusted from %0 ile %50 of the Scale ( AUPL - ALoL ). (Default: 0)
A52 : Alarm Type selection. (Default: PH ,A )
2 : Alarm Set Low Limit parameter. It can be adjusted from Operation Scale minimum to Alarm Set High Limit. (Default: 0)
R_uP2 : Alarm Set High Limit parameter. It can be adjusted from Alarm Set Low Limit to Operation Scale maximum. (Default: 500)
Ron2 : Alarm on Delay Time. It can be adjusted from 0 to 9999 seconds. (Default: 0)
RoF2 : Alarm off Delay Time. It can be adjusted from 0 to 9998 seconds. If it is higher than 9998, LECN is seen on the screen and Alarm Latching Output is selected. (Default: 0)
NOTE: Alarm-2 parameters(AHS2, AtS2, Alo2, AuP2, Aon2, AoF2) are active, if Cout parameter is set as SSR.
Prot : Protection Menu Parameter
PrPS : Password for accessing to the programming section. It can be adjusted from 0 to 9999. If PrPS is 0, password screen is not observed. If PrPS is different from 0 and user enters to the menu pages without entering the password, all the menus can be observed except protection menu Prot. But device does not allow to do any changes in parameters. (Default value is 0)
Alarm Types
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| Phase | Process Value | Event Type | Label | |-------|---------------|------------|-------| | PH | High | ON | | | PH | High | OFF | | | PH | High | RSEt | | | PLoR | Low | ON | | | PLoR | Low | OFF | | | PLoR | Low | RSEt | | | PLoR | Low | RHSE | |
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| Process Value | Alarm Output | | ------------- | ------------ | | ON | OFF | | PSEt | ON | | AHST | ON | | (PSEt + ASET) | ON |
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| Process Value | Alarm Output | | ------------- | ------------ | | ON | ON | | AHST | AHST |
other
| Phase | Process Value | |-------------|---------------| | ON | PSET | | ON | RSET | | ON | RHST | | ON | (PSET + ASET) | | OFF | | | Off | |
other
| Process Value | Alarm Output | | ------------- | ------------ | | ON | ON | | PSEt | ON | | RHST | ON | | PSEt | ON | | (PSEt + RHST) | ON |
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| Process Value | Alarm Output | | ------------- | ------------ | | ON | ON | | RHST | AHST | | (PSET - ASET) | (PSET - ASET) | | PSET | PSET |Error Messages
1- Sensor failure in analog inputs. Sensor connection is wrong or there is no sensor connection.
2- If value that is read from the analog input is lower than process set low limit parameter P_LoL , value on the top display starts to blink like on the picture.
3- If value that is read from the analog input is higher than process set high limit parameter value , value on the top display starts to blink like on the picture.
4- If programming section entering password is different from "0" and user accesses to the parameter by ASET/OK button without entering the password and wants to change a parameter, the warning message is shown on the bottom display as shown on the left. Device does not allow to do any changes without entering the password correctly.
5- In programming section, when Tune operation is selected YES, if warning which is shown on the left blinks in operation screen for 10 seconds, it means that start conditions is not okay for Tune operation.
Installation
Before beginning installation of this product, please read the instruction manual and warnings below carefully.
In package,
-One piece unit
-Two pieces mounting clamp
-One piece instruction manual
A visual inspection of this product for possible damage occurred during shipment is recommended before installation. It is your responsibility to ensure that qualified mechanical and electrical technicians install this product.
If there is danger of serious accident resulting from a failure or defect in this unit, power off the system and the electrical connection of the device from the system.
The unit is normally supplied without a power switch or a fuse. Use power switch and fuse as required.
Be sure to use the rated power supply voltage to protect the unit against damage and to prevent failure.
Keep the power off until all of the wiring is completed so that electric shock and trouble with the unit can be prevented.
Never attempt to disassemble, modify or repair this unit. Tampering with the unit may results in malfunction, electric shock or fire.
Do not use the unit in combustible or explosive gaseous atmospheres. During the equipment is putted in hole on the metal panel while mechanical installation some metal burrs can cause injury on hands, you must be careful.
Montage of the product on a system must be done with it's mounting clamp. Do not do the montage of the device with inappropriate mounting clamp. Be sure that device will not fall while doing the montage.
It is your responsibility if this equipment is used in a manner not specified in this instruction manual.
Warranty
EMKO Elektronik warrants that the equipment delivered is free from defects in material and workmanship. This warranty is provided for a period of two years. The warranty period starts from the delivery date.
This warranty is in force if duty and responsibilities which are determined in warranty document and instruction manual performs by the customer completely.
Maintenance
Repairs should only be performed by trained and specialized personnel. Cut power to the device before accessing internal parts. Do not clean the case with hydrocarbon-based solvents (Petrol, Trichlorethylene etc.). Use of these solvents can reduce the mechanical reliability of the device. Use a cloth dampened in ethyl alcohol or water to clean the external plastic case.
Other Information:
Manufacturer Information:
Emko Elektronik Sanayi ve Ticaret A.Ş.
Repair and Maintenance Service Information:
Emko Elektronik Sanayi ve Ticaret A.Ş.
| A | BC | D | E | / | FG | HI | / | U | V | W | Z |
| 0 | / | 01 | 02 | / | 0 | 0 | 0 | 0 |
| A | Supply Voltage |
| 2 | 24V ~ 50/60Hz or 24V= ( ± %15 ) |
| 3 | 24V ~ ( ± %15 ) 50/60Hz |
| 4 | 115V ~ ( ± %15 ) 50/60Hz |
| 5 | 230V ~ ( ± %15 ) 50/60Hz |
| 9 | Customer |
| BC | Input Type | Scale |
| 20 | Configurable (Table-1) | (Table-1) |
| D | Serial Communication |
| 0 | None |
| E | Output-1(Process or Alarm) |
| 1 | Relay Output (5A@250V~ Resistive Load) |
| 2 | SSR Driver Output (Max. 24mA, Max.12V—) |
| FG | Output-2(Alarm) |
| 01 | Relay Output (5A@250V~ Resistive Load) |
| HI | Output-3(Process) |
| 02 | SSR Driver Output (Max. 24mA, Max.12V = = ) |
Table-1
| BC | Input Type(TC) | Scale(°C) | Scale(°F) |
| 23 | J ,Fe CuNi IEC584.1(ITS90) | -200°C,1300°C | -328°F,2372°F |
| 25 | K ,NiCr Ni IEC584.1(ITS90) | 0°C,1700°C | 32°F,3092°F |
| 27 | R ,Pt13%Rh Pt IEC584.1(ITS90) | 0°C,1700°C | 32°F,3092°F |
| 28 | S ,Pt10%Rh Pt IEC584.1(ITS90) | 0°C,1700°C | 32°F,3092°F |
| 29 | T ,Cu CuNi IEC584.1(ITS90) | -200°C,400°C | -328°F,752°F |
| BC | Input Type(RTD) | Scale(°C) | Scale(°F) |
| 39 | PT 100 , IEC751(ITS90) | -200°C,650°C | -328°F,1202°F |
| 40 | PT 100 , IEC751(ITS90) | -199.9°C,650.0°C | -199.9°F,999.9°F |
natural_image
Five black industrial electronic components with blue LED indicators, displayed against a gradient orange background (no visible text or symbols on the devices themselves)PID TEMPERATURREGLER ESM-XX20
ESM-9920, ESM-9420, ESM-7720, ESM-4920, ESM-4420 PID Temperaturregler
| A | BC | D | E | / | FG | HI | / | U | V | W | Z |
| 0 | 1 | / | 01 | 02 | / | 0 | 0 | 0 | 0 |
| A | Versorgungsspannung |
| 2 | 24V ~ 50/60Hz or 24V—( ± %15 ) |
| 3 | 24V ~ ( ± %15 ) 50/60Hz |
| 4 | 115V ~ ( ± %15 ) 50/60Hz |
| 5 | 230V ~ ( ± %15 ) 50/60Hz |
| 9 | Kundenspezifisch |
natural_image
Five black industrial electronic units with blue LED indicators, displayed against a gradient orange background (no visible text or symbols on the devices themselves)RÉGULATEURS DE TEMPÉRATURE PID ESM-XX20
ESM-4420, ESM-7720, ESM-9920
TENSION D'ALIMENTATION
230V ∼ ( ±15% ) 50/60 Hz - 3VA
115V ∼ ( ±15% ) 50/60 Hz - 3VA
24V ∼ ( ±15% ) 50/60 Hz - 3VA
natural_image
Diagram of a room layout with ventilation grilles and a green wall-mounted device (no text or symbols)12 ± 1 mm /0,47 pouce 84 mm / 3,31 pouce
text_image
MONTAGE SUR PANNEAU 1 ESM-4423 °C 8.8.8.0 °F 8.8.8.0 °C 8.8.8.0 °C 8.8.8.0 Réguléteur de température 3 2text_image
°C P in 5 Ps PSET P △ ASETnatural_image
Five black electronic devices with blue LED indicators arranged horizontally against a gradient orange background (no visible text or symbols on devices)flowchart
graph TD
A["Pantalla principal"] --> B["30 200 PSET"]
B --> C["200 PSET"]
C --> D["ProG"]
D --> E["PrPS 0"]
E --> F["PrPS 100"]
F --> G["PrPS 100"]
G --> H["PrPS 100"]
I["Pantalla de contraseña"] --> J["PrS"]
J --> K["ASET"]
K --> L["Pins FECn"]
L --> M["ASET"]
M --> N["un it °C"]
N --> O["ASET"]
O --> P["PLoL -200"]
P --> Q["ASET"]
Q --> R["PuPL 900"]
R --> S["ASET"]
S --> T["SU-L -200"]
T --> U["ASET"]
U --> V["SU-u 900"]
V --> W["ASET"]
W --> X["PuO F 0"]
X --> Y["ASCT"]
J --> Z["Cont"]
Z --> AA["ASET"]
AA --> AB["Cout rLy"]
AB --> AC["ASET"]
AC --> AD["PrtS HEAT"]
AD --> AE["ASET"]
AE --> AF["CntS onoF"]
AF --> AG["ASET"]
AG --> AH["HYST 3"]
AH --> AI["ASET"]
AI --> AJ["Sbou 00"]
AJ --> AK["ASET"]
AK --> AL["SSEt no"]
AL --> AM["ASET"]
AM --> AN["SSCo 100"]
AN --> AO["ASET"]
AO --> AP["SSCt 1"]
AP --> AQ["ASET"]
J --> AR["ALr"]
AR --> AS["ASET"]
AS --> AT["AHS 1 0"]
AT --> AU["ASET"]
AU --> AV["AtS 1 PH.A"]
AV --> AW["ASET"]
AW --> AX["ALo 1 0"]
AX --> AY["ASET"]
AY --> AZ["RuP 1 500"]
AZ --> BA["ASET"]
BA --> BB["Ron 1 0"]
BB --> BC["ASET"]
BC --> BD["RoF 1 0"]
BD --> BE["ASET"]
J --> BF["Prot"]
BF --> BG["ASET"]
BG --> BH["PrPS 100"]
BH --> BI["ASET"]
J --> BJ["Cont"]
J --> BK["Cout rLy"]
J --> BL["PrtS HEAT"]
J --> BM["CntS onoF"]
J --> BN["HYST 3"]
J --> BO["Sbou 00"]
J --> BP["SSEt no"]
J --> BQ["SsCo 100"]
J --> BR["SsCt 1"]
J --> BS["Cont 10"]
J --> BT["ASCT"]
J --> BU["ASCT"]
J --> BV["ASCT"]
J --> BW["ASCT"]
J --> BX["ASCT"]
J --> BY["ASCT"]
J --> BZ["ASCT"]
J --> CA["ASCT"]
J --> CB["ASCT"]
J --> CC["ASCT"]
J --> CD["ASCT"]
J --> CE["ASCT"]
J --> CF["ASCT"]
J --> CG["ASCT"]
J --> CH["ASCT"]
J --> CI["ASCT"]
J --> CJ["ASCT"]
J --> CK["ASCT"]
J --> CL["ASCT"]
J --> CM["ASCT"]
J --> CN["ASCT"]
J --> CO["ASCT"]
J --> CP["ASCT"]
J --> CQ["ASCT"]
J --> CR["ASCT"]
J --> CS["ASCT"]
J --> CT["ASCT"]
J --> CU["ASCT"]
J --> CV["ASCT"]
J --> CW["ASCT"]
J --> CX["ASCT"]
J --> CY["ASCT"]
J --> CZ["ASCT"]
J --> DA["ASCT"]
J --> DB["ASCT"]
J --> DC["ASCT"]
J --> DD["ASCT"]
J --> DE["ASCT"]
J --> DF["ASCT"]
J --> DG["ASCT"]
J --> DH["ASCT"]
J --> DI["ASCT"]
J --> DJ["ASCT"]
J --> DK["ASCT"]
J --> DL["ASCT"]
J --> DV["ASCT"]
J --> DW["ASCT"]
J --> DX["ASCT"]
J --> DXD["ASCT"]
J --> DXE["ASCT"]
J --> DXF["ASCT"]
J --> DXG["ASCT"]
J --> DXH["ASCT"]
J --> DXI["ASCT"]
J --> DXJ["ASCT"]
J --> DXK["ASCT"]
J --> DXL["ASCT"]
J --> DXM["ASCT"]
J --> DXN["ASCT"]
J --> DXO["ASCT"]
J --> DXP["ASCT"]
J --> DXQ["ASCT"]
J --> DXR["ASCT"]
J --> DXS["ASCT"]
J --> DXT["ASCT"]
J --> DXU["ASCT"]
J --> DXV["ASCT"]
J --> DXW["ASCT"]
J --> DXX["ASCT"]
J --> DXY["ASCT"]
J --> DXZ["ASCT"]
J --> DXB["ASCT"]
J --> DXC["ASCT"]
J --> DXD["ASCT"]
J --> DXE["ASCT"]
J --> DXF["ASCT"]
J --> DXG["ASCT"]
J --> DXH["ASCT"]
J --> DXI["ASCT"]
J --> DXJ["ASCT"]
J --> DXK["ASCT"]
J --> DXL["ASCT"]
J --> DXLd["ASCT"]
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| Event | Value | |-------|-------| | ON (Encen.) | 0 | | OHST | 0 | | PSET | PSET + ASET | | AHST | AHST |
line
| Event | Value | |-------|-------| | ON (Encen.) | (PSEt - ASET) | | OFF (Apag.) | RHSE | | Salida de alarma | (PSEt - ASET) | | Valor de proceso | (PSEt) |
flowchart
graph LR
A["Salida de alarma"] --> B["ON (Encen.)"]
B --> C["PSEt"]
B --> D["RSEt"]
C --> E["OFF (Apag.)"]
D --> F["PSEt"]
D --> G["RSEt"]
E --> H["(PSEt + RSEt) ( - )"]
F --> I["(PSEt + RSEt) ( - )"]
G --> J["(PSEt + RSEt) ( - )"]
line
| Event | Value | |-------|-------| | ON (Encen.) | ON | | RHST | RHST | | PSET | PSET | | (PSET + RSET) | (PSET + RSET) |
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| Phase | Event | Value | |-------------|-----------------|-------| | ON (Encen.) | ON | (PSET - RSET) | | OFF (Apag.) | OFF | APAG | | AHST | AHST | | | PSET | PSET | |Valor de proceso
Mensajes de error
text_image
°C 56r PS 300 PSET P ASET
text_image
°C PtLo Ps 300 PSET P ▼ ASET
text_image
°C PtH, PS 300 PSET P ASET
text_image
°C P in S PS PSET P ASET
text_image
°C 26 tErr PSET P ASET| A | BC | D | E | / | FG | HI | / | U | V | W | Z |
| 0 | / | 01 | 02 | / | 0 | 0 | 0 | 0 |
| A | Tensión de alimentación |
| 2 | 24 V ∼, 50/60 Hz o 24 V--- (± %15) |
| 3 | 24 V ∼(± %15) 50/60 Hz |
| 4 | 115 V ∼ (± %15) 50/60 Hz |
| 5 | 230 V ∼ (± %15) 50/60 Hz |
| 9 | Cliente |
