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EPC-3
Instruction Manual
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EMKO EPC-1, EPC-3, EPC-4, EPC-4A, EPC-1A Instruction Manual

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EMKO ELEKTRONIK A.S. Demirtas Org. San. Bolg. Karanfil Sk. No: 6 TR 16369 Bursa / TURKEY
Phone: +90 224 261 1900 Fax: +90 224 261 1912 Url: www.emkoelektronik.com.tr e-mail: exposales@emkoelektronik.com.tr
Instruction Manual. ENG EPC_X 02 V03 07/13
EPC-1, EPC-3 & EPC-4
EPC-1A, EPC-3A & EPC-4A
POULTRY CONTROLLER MANUAL
Instruction manual of EPC consists of three main sections. Explanation of these sections are below. Also,
there is another section which include technical specifications of the device. All titles and page numbers in instruction manual are in “CONTENTS” section. User can reach to any title with section number.
Installation:
In this section, physical dimensions of the device, panel mounting, electrical wiring, physical and
electrical installation of the device to the system are explained.
User Section:
In this section, user interface of the device, how to access to the user parameters, description of the
parameters are explained.
Also in these sections, there are warnings to prevent serious injury while doing the physical and electrical
mounting or using the device.
Technician Section
In this section, how to access to the technician parameters, description of the parameters and functions
are explained.
Explanation of the symbols which are used in these sections are given below.
This symbol is used to determine the dangerous situations as a result of an electric shock. User must pay attention to these warnings definitely.
a
c
This symbol is used for safety warnings. User must pay attention to these warnings.
This symbol is used to determine the important notes about functions and usage of the device.
i
This symbol is used for VDC
Z
ABOUT INSTRUCTION MANUAL
This symbol is used for VAC
V
2
CONTENTS
3
1. INTRODUCTION.................................................................................................................................
1.1 GENERAL SPECIFICATIONS.....................................................................................................
1.2 WARRANTY.................................................................................................................................
1.3 MAINTENANCE..........................................................................................................................
2. INSTALLATION...................................................................................................................................
2.1 GENERAL DESCRIPTION..........................................................................................................
2.2 DIEMENSIONS...........................................................................................................................
2.3 RIGHT SIDE VIEW......................................................................................................................
2.4 PANEL CUT-OUT.........................................................................................................................
2.5 ENVIRONMENTAL RATINGS.....................................................................................................
2.6 PANEL MOUNTING.....................................................................................................................
2.7 INSTALLATION FIXING SCREWS..............................................................................................
2.8 REMOVING FROM THE PANEL.................................................................................................
3. INPUTS AND OUTPUT CONNECTIONS...........................................................................................
4. RS-232 SERIAL INTERFACE, PROGRAMMING THE DEVICE OVER PC ......................................
4.1 CABLE CONNECTION BETWEEN RS-232 TERMINAL OF THE DEVICE AND PC..................
4.2 PC INTERFACE..........................................................................................................................
4.2.1 TECHNICIAL SPECIFICATIONS........................................................................................
5. USER SECTION..................................................................................................................................
5.1 EASY ACCESS DIAGRAM FOR PAGES....................................................................................
5.2 SHORTCUT BUTTONS...............................................................................................................
5.3 EDITING A PARAMETER............................................................................................................
5.4 SCREENS, PARAMETERS AND FUNCTIONS..........................................................................
5.4.1 PROCESS VALUES...........................................................................................................
5.4.2 SYSTEM MONITORING.....................................................................................................
5.4.3 FEEDING CONSUMPTION (EPC 3&4) .............................................................................
5.4.4 WEIGHING LOG (EPC 4) ..................................................................................................
5.4.5 ELECTRICITY ENERGY CONSUMPTION (EPC 4) ..........................................................
5.4.6 WATER CONSUMPTION (EPC 4) .....................................................................................
5.4.7 SET VALUES......................................................................................................................
5.4.8 SHUTTER...........................................................................................................................
5.4.8.1 SHUTTER PARAMETERS..................................................................................
5.4.8.2 SHUTTER FUNCTION........................................................................................
5.4.9 FEEDING PARAMETERS (EPC 3&4) ...............................................................................
5.4.9.1 FEEDING FUNCTION (EPC 3&4) ......................................................................
5.4.10 LIGHTING PARAMETERS (EPC 3&4) ............................................................................
5.4.11 ALARMS...........................................................................................................................
5.4.11.1 ALARM SET VALUES........................................................................................
5.4.11.2 ALARM TYPES..................................................................................................
5.4.12 PROCESS OUTPUTS......................................................................................................
5.4.13 MAX & MIN VALUES........................................................................................................
5.4.14 ALARM STATUS...............................................................................................................
5.4.15 EVENTS...........................................................................................................................
5.4.16 INFLUENCES...................................................................................................................
5.4.16.1 INFLUENCE PARAMETERS.............................................................................
5.4.16.2 INFLUENCE FUNCTIONS.................................................................................
5.4.17 DATE SETUP....................................................................................................................
5.4.18 CURVE.............................................................................................................................
5.4.18.1 CURVE SETUP..................................................................................................
5.4.18.2 CURVE FEEDING PARAMETERS (EPC 3&4) .................................................
5.4.18.3 CURVE LIGHTING PARAMETERS (EPC 3&4) ................................................
5.4.18.4 CURVE FUNCTION...........................................................................................
6. TECHNICIAN SECTION...............................................................................................................
6.1 FRONT PANEL...........................................................................................................................
6.1.1 BUTTONS EXPLANATIONS..............................................................................................
6.1.2 LEDS EXPLANATIONS......................................................................................................
6.2 EASY ACCESSING DIAGRAM FOR PAGES.............................................................................
6.3 EDITING A PARAMETER. AND CHANGING A PAGE................................................................
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CONTENTS
4
6.4 SCREENS PARAMETERS AND FUNCTIONS..........................................................................
6.4.1 TECHNICIAN PASSWORD...............................................................................................
6.4.2 HEATER1..........................................................................................................................
6.4.2.1 HEATING1 PARAMETERS................................................................................
6.4.2.2 HEATER1 FUNCTION........................................................................................
6.4.3 HEATER2..........................................................................................................................
6.4.3.1 HEATING2 PARAMETERS................................................................................
6.4.3.2 HEATER2 FUNCTION........................................................................................
6.4.4 COOLING..........................................................................................................................
6.4.4.1 COOLING PARAMETERS..................................................................................
6.4.4.2 COOLING FUNCTION........................................................................................
6.4.5 HUMIDITY..........................................................................................................................
6.4.5.1 HUMIDITY PARAMETERS.................................................................................
6.4.5.2 HUMIDITY.FUNCTION.......................................................................................
6.4.6 VENTILATION...................................................................................................................
6.4.6.1 VENTILATION PARAMETERS...........................................................................
6.4.6.2 SET VENTILATION<°C>....................................................................................
6.4.6.3 VENTILATION FUNCTION(TUNNEL)................................................................
6.4.6.4 VENTILATION FUNCTION(BASIC&TUN.).........................................................
6.4.6.5 TECHNICIAN VENTILATION PARAMETERS....................................................
6.4.7 SHUTTER CALIBRATION.................................................................................................
6.4.8 TEMPERATURE SETTINGS.............................................................................................
6.4.9 CONTROL FUNC PAGE 1.................................................................................................
6.4.10 CONTROL FUNC PAGE 2...............................................................................................
6.4.11 LIGHTING FUNCTION (EPC 3&4) ..................................................................................
6.4.11.1 LIGHTING(ON/OFF MODE) FUNCTION (EPC 3&4) .......................................
6.4.11.2 LIGHTING(MODULATE MODE) FUNCTION (EPC 3&4) .................................
6.4.12 FEEDING (EPC 3&4) ......................................................................................................
6.4.12.1 FEED UNIT PARAMETERS (EPC 3&4) ...........................................................
6.4.12.2 FEEDING WEIGH ADJUSTMENT (EPC 3&4) .................................................
6.4.12.3 FEEDING SYSTEM (EPC 3&4) .......................................................................
6.4.12.4 FEEDING FLOW CHARTS (EPC 3&4) ............................................................
6.4.12.5 FEEDING (WITH LOADCELL) GRAPHICS (EPC 3&4) ...................................
6.4.12.6 FEEDING (WITHOUT LOADCELL) GRAPHICS (EPC 3&4) ............................
6.4.12.7 FEEDING EXAMPLES (EPC 3&4) ...................................................................
6.4.13 WEIGHT (EPC 4) .............................................................................................................
6.4.13.1 WEIGHT1 ADJUSTMENT (EPC 4) ...................................................................
6.4.13.2 WEIGHT2 ADJUSTMENT (EPC 4) ...................................................................
6.4.13.3 WEIGHT3 ADJUSTMENT (EPC 4) ...................................................................
6.4.13.4 AVERAGE WEIGH1 (EPC 4) ............................................................................
6.4.13.5 AVERAGE WEIGH2 (EPC 4) ............................................................................
6.4.13.6 AVERAGE WEIGH3 (EPC 4) ............................................................................
6.4.13.7 WEIGHING PARAMETERS (EPC 4) ................................................................
6.4.13.8 WEIGHING ADJUSTMENT (EPC 4) .................................................................
6.4.13.9 WEIGHING (EPC 4) ..........................................................................................
6.4.14 WATER AND ELECTRICITY CONSUMPTION (EPC 4) ..................................................
6.4.14.1 WATER AND ELECTRICITY CONSUMPTION PER PULSE (EPC 4) ..............
6.4.14.2 ELECTRICITY CONSUMPTION (EPC 4) .........................................................
6.4.14.3 WATER CONSUMPTION (EPC 4) ....................................................................
6.4.15 NH3/CO2 .........................................................................................................................
6.4.15.1 NH3 CALIBRATION ...........................................................................................
6.4.15.2 CO2 CALIBRATION ...........................................................................................
6.4.15.3 NH3/CO2 SET VALUES ....................................................................................
6.4.16 SMS PARAMETERS .......................................................................................................
6.4.17 MODBUS .........................................................................................................................
6.4.18 EDIT PASSWORDS..........................................................................................................
6.4.19 ENTER CAL PASSWORD PAGE......................................................................................
7. SPECIFICATIONS...............................................................................................................................
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5
Manufacturer’s Name : EMKO ELEKTRONIK A.S. Manufacturer’s Address : DOSAB, Karanfil Sk., No:6,
16369 Bursa, TURKEY
The manufacturer hereby declares that the product:
Product Name : Poultry Controller Unit
Type Number : EPC
Product Category : Electrical equipment for measurement, control and
laboratory use
Conforms to the following directives :
2006 / 95 / EC The Low Voltage Directive
2004 / 108 / EC The Electromagnetic Compatibility Directive
has been designed and manufactured to the following specifications:
EN 61000-6-4:2001 EMC Generic Emission Standard for the Industrial Environment
EN 61000-6-2:2001 EMC Generic Immunity Standard for the Industrial Environment
EN 61010-1:2001 Safety Requirements for electrical equipment for measurement, control
and laboratory use
When and Where Issued Authorized Signature
th
10 May 2010 Name : Serpil YAKIN
Bursa-TURKEY Position : Quality Manager
EU DECLARATION OF CONFORMITY
1. INTRODUCTION
Beside of all these features EPC is developed controller with modbus communication and easy to use menu.
Feaures
- Two zones house temperature measurement and control,
- Heating, cooling and humidity control,
- Outside temperature measurement and intelligent influence on controls,
- Ventilation control with stages’ relay outputs and analog output,
- Shutter open / close control with relay outputs and analog output,
- Shutter Feedback input,
- Feeding control from age curves, feeding storage silo weight measurement and control,
- Food consumption data recording and logging,
- Lighting control from age curves, lighting control with analog output,
- Water consumption measurement, data recording and logging,
- Electricity Consumption measurement, data recording and logging,
- Animal weight measurement from up to 3 scales placed in house, animal weighings data.
5
6
Pt-100 input -1, Room Temperature Measurement
Pt-100 input -2, Room Temperature Measurement
Pt-100 input -3, Outside Temperature Measurement
8 Relay Outputs for Fans
0-10 V Analog Output for Fans
Heater-1 and Heater-2 Relay Outputs
Cooling Relay Output
Alarm Relay Output and 2 Alarm Signal Inputs
Shutter Open/Close Relay outputs
0-10V Analog Output for Shutter Control
Humidity Control Relay Output & %RH measurement
Feeding Relay Output & Feeding weight measurement
0-10V Analog Output for Lighting control
Water & Electricity Consumption measurement input (pulse) & Log
Weight-1, Weight-2, Weight-3 measurement inputs & weight logging
Feeding Consumption log
Lighting curves & Lighting Relay Output
EPC3EPC1 EPC4FUNCTIONS
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
YES
NO
NO
NO
NO
NO
NO NO
NO
Shutter Feedback input YESYESYES
CO and NH meauserement input & control YESYESYES
2
3
MICROCONTROLLER
SUPPLY
VOLTAGE
24VZ +/-15%
PUSH BUTTONS
HUMIDITY (0-10VZ)
ANALOG INPUT
ROOM TEMP1
Pt100 INPUT
ROOM TEMP2
Pt100 INPUT
OUTSIDE TEMP
Pt100 INPUT
FEEDING
(0-10VZ)
ANALOG INPUT
WEIGHT 1 (0-10VZ)
ANALOG INPUT
WEIGHT 2 (0-10VZ)
ANALOG INPUT
SHUTTER FEED.
(0-10VZ)
ANALOG INPUT
ALARM 1
DIGITAL INPUT
NEGATIVE
PRESSURE
DIGITAL INPUT
FEEDING
DIGITAL INPUT
ELECTRICITY
CONSUMPTION
DIGITAL INPUT
WATER
CONSUMPTION
DIGITAL INPUT
RS-232
PC COMM.
RS-485
COMMUNICATION
SHUTTER
OPEN
RELAY OUTPUT
ALARM 1
RELAY OUTPUT
FAN RELAY
OUTPUTS
COOLING
RELAY OUTPUT
HEATER 2
RELAY OUTPUT
HEATER 1
RELAY OUTPUT
SHUTTER
CLOSE
RELAY OUTPUT
HUMIDITY
RELAY OUTPUT
FEEDING
RELAY OUTPUT
LIGHTING
RELAY OUTPUT
SHUTTER
(0-10VZ)
ANALOG OUT.
FANS
(0-10VZ)
ANALOG OUT.
LIGHTING
(0-10VZ)
ANALOG OUT.
STATUS
INDICATORS
1.1 GENERAL SPECIFICATIONS
5
7
(EPC 3&4)
(EPC 4)
(EPC 4)
(EPC 3&4)
(EPC 4)
(EPC 4)
(EPC 3&4)
(EPC 3&4)
(EPC 3&4)
(NOTE-1)
NOTE-1: If the device is EPC-1A, EPC-3A or EPC-4A, then this analog input is shutter feedback input. If the device is EPC-1 or EPC-3, there is no analog input. If the device is EPC-4, then this analog input is WEIGH-3 Analog input(0-10V).
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.
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.
1.2 WARRANTY
1.3 MAINTENANCE
Carefully unpack the unit and check for damage to the unit or to the cables supplied. Retain the packing in case of future need, e.g. returning the unit for adjustment. Check the contents, as follows:
• One EPC unit.
• Operating Manual.
• Screw fixings.
• RS-232 Cable.
Before commencing installation:
• Disconnect all electrical power to the machine.
• Make sure the machine cannot operate during installation.
• Follow all of the machine manufacturer’s safety warnings.
• Read and follow all installation instructions.
Report any shortage or damage to your local sales office as soon as possible.
A visual inspection of this product for possible damage occured during shipment is recommended before installation. It is your responsibility to ensure that qualified mechanical and electrical technicians install this product.
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 own fixing screws. Do not do the montage of the device with inappropriate fixing screws. 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.
Before beginning installation of this product, please read the instruction manual and warnings below carefully.
c
2. INSTALLATION
8
Mounting
Holes
Electrical
Connection
Front Panel
IP65 protection
NEMA 4X
Label
Pocket
mm1 44
204mm
2.1 GENERAL DESCRIPTION
2.2 DIMENSIONS
Electrical
Connection
COOLING
ALARM
MAN
AUTO
PROCESS
VALUES
PROCESS
OUTPUTS
SET
VALUES
ALARM SET
VALUES
EVENTS
MAX & MIN
SHUTTER
FANS
FANS
FANS
FANS
HEATERS
1 2
3 4
5 6
7 8
1 2
PRG ESC
19.07.06 14:30:21
HOUSE 20.2°C OUT 12.1°C HUMIDITY 65%
DAY -5 CURVE
Label
Pocket
9
7mm
16.5mm 34.5mm
89.5mm29mm
144mm
2.3 RIGHT SIDE VIEW
10
Operating Temperature : -25°C to 70°C
Max. Operating Humidity : 90% Rh (non-condensing)
Altitude : Up to 2000m.
Operating Conditions
Forbidden Conditions: Corrosive atmosphere Explosive atmosphere Home applications (The unit is only for industrial applications)
c
2.4 PANEL CUT-OUT
2.5 ENVIRONMENTAL RATINGS
7 1
.25m
m
R
=
4.
5m
m
R=
4.5m
m
7 2
5m
m
1
.
5
m
m
5mm
R=4.5mm
R=4.5mm
186 mm
1
5
m
03
.
m
196 mm
1
3
m8
m
11
During installation into a metal panel, care should be taken to avoid injury from metal burrs which might be present. The equipment can loosen from vibration and become dislodged if installation parts are not properly tightened. These precautions for the safety of the person who does the panel mounting.
1. Before mounting the device in your panel, make sure that the cut-out is of the right size
2. Make sure that the diameter of the holes are of the right size and coordinate of the holes are true.
3. Check front panel gasket position
4. Insert the device through the cut-out. If the mounting screws are on the unit, put out them before inserting the
unit to the panel.
c
1
3
2
22
2
4
The unit is designed for panel mounting.
1. Insert the unit in the panel cut-out from the front side.
2. Insert the fixings through the mounting holes and tighten the fixing screws to secure the unit against the panel.
Fixing is
done by four screw fixings.
Montage of the unit to a system must be done with it’s own fixing screws. Do not do the montage of the device with inappropriate fixing screws. Be sure that device will not fall while doing the montage.
During mechanical installation, beware of any sharp burrs on the metal panel aperture. Ensure that the fixings are properly tightened to prevent the fixings becoming loose due to panel vibration.
c
2.6 PANEL MOUNTING
2.7 INSTALLATION FIXING SCREWS
12
1. Loosen the screws.
2. Pull the unit through the front side of the panel
Before starting to remove the unit from panel, power off the unit and the related system.
c
RESET
2
2.8 REMOVING FROM THE PANEL
13
3. INPUT AND OUTPUT CONNECTIONS
14
SUPPLY VOLTAGE
24 VZ +/-15%
1
FAN OUTPUTS
2 3 4 5 6 7
3131 3232 3333 3434 3535 3636 3737 3838 3939
8
COMMON 2
EPC - 1
8 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
COMMON11SHUTTER
FANS
+ +-
ANALOG OUTPUTS
Z(0-10 V )
ANALOG INPUTS
ROOM TEMP 1 PT-100
55 66 77 88 99 1010
ROOM TEMP 2 PT-100
OUTSIDE
TEMP
PT-100
OUT
RH
-
+
HUMIDITY (0 - 10V ) Z
22 33 1111 1212
4545 4747
4646
4848
3 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
DIGITAL INPUTS
3 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
2727 2828 2929 3030
HEATER 1
HEATER 2
COOLING
COMMON 1
COMMON 3
SHUTTER
OPEN
SHUTTER
CLOSE
HUMIDITY
COMMON
2222
2323
ALARM 1
NEG PRES
2121
C$
4343 4444
RELAY 5A @ 250 V V (RESISTIVE LOAD)
ALARM 1
COMMON 4
RS 232
PC COMM.
RS 485
EXPANSION BOARD
1
FAN OUTPUTS
2 3 4 5 6 7
3131 3232 3333 3434 3535 3636 3737 3838 3939
8
COMMON 2
EPC - 3
8 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
COMMON11SHUTTER
FANS
LIGHTING
++ +-
ANALOG OUTPUTS
Z(0-10 V )
ANALOG INPUTS
ROOM TEMP 1 PT-100
55 66 77 88 99 1010
ROOM TEMP 2 PT-100
OUTSIDE
TEMP
PT-100
OUT
RH
-
+
HUMIDITY (0 - 10V ) Z
22 33 44 1111 1212
4545 4747
4646
4848 4949 5050
5 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
3 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
2727 2828 2929 3030
HEATER 1
HEATER 2
COOLING
COMMON 1
COMMON 3
SHUTTER
OPEN
SHUTTER
CLOSE
HUMIDITY
FEEDING
LIGHTING
C$
4343 4444
RELAY 5A @ 250 V V (RESISTIVE LOAD)
ALARM 1
COMMON 4
DIGITAL INPUTS
FEEDING
COMMON
ALARM 1
NEG PRES
2222
2323
2424
2121
RS 232
PC COMM.
RS 485
EXPANSION BOARD
4343 4444
RELAY 5A @ 250 V V (RESISTIVE LOAD)
ALARM 1
COMMON 4
1
FAN OUTPUTS
2 3 4 5 6 7
3131 3232 3333 3434 3535 3636 3737 3838 3939
8
COMMON 2
RS 232
PC COMM.
RS 485
EXPANSION BOARD
EPC - 4
8 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
COMMON11SHUTTER
FANS
LIGHTING
++ +-
ANALOG OUTPUTS
Z(0-10 V )
ANALOG INPUTS
ROOM TEMP 1 PT-100
55 66 77 88 99 1010
ROOM TEMP 2 PT-100
OUTSIDE
TEMP
PT-100
OUT
RH
-
+
HUMIDITY (0 - 10V ) Z
22 33 44 1111 1212
4545 4747
4646
4848 4949 5050
5 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
DIGITAL INPUTS
-
+
FEEDING
(0 - 10V ) Z
1313 1414
-
+
1515 1616
-
+
1717 1818
-
+
1919 2020
INPUT 1
(0 - 10V ) Z
INPUT 2
(0 - 10V ) Z
INPUT 3
(0 - 10V ) Z
3 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
2727 2828 2929 3030
HEATER 1
HEATER 2
COOLING
COMMON 1
COMMON 3
SHUTTER
OPEN
SHUTTER
CLOSE
HUMIDITY
FEEDING
LIGHTING
FEEDING
COMMON
2222
2323
2424 2525
ALARM 1
NEG PRES
ELECTRICITY
2121
2626
WATER
CONSUMP.
C$
SUPPLY VOLTAGE
24 VZ +/-15%
SUPPLY VOLTAGE
24 VZ +/-15%
-
+
FEEDING
(0 - 10V ) Z
1313 1414
-
+
1515 1616
-
+
1717 1818
INPUT 1
(0 - 10V ) Z
INPUT 2
(0 - 10V ) Z
-
+
1515 1616
-
+
1717 1818
INPUT 1
(0 - 10V ) Z
INPUT 2
(0 - 10V ) Z
4141
4242
+
-
4040
I
4141
4242
+
-
4040
I
4141
4242
+
-
4040
I
15
3. INPUT AND OUTPUT CONNECTIONS
-
+
1515 1616
-
+
1717 1818
FEEDING
(0 - 10V ) Z
CONF IN 2
ORTAK
2222
2323
2424 2525
CONF IN 1
TERS BASINÇ
ELEKTRÝK
2121
2626
SU TÜKETÝMÝ
EPC - 4B
1313 141455 66 77 88 99 1010 1111 1212
C$
DÝJÝTAL GÝRÝÞLER
RS 232
PC HABER.
RS 485
GENÝÞLEME KARTI
1919 2020
-
+
NEG. PRESS.
(0 - 10V ) Z
SUPPLY VOLTAGE
24 VZ +/-15%
1
FAN OUTPUTS
2 3 4 5 6 7
3131 3232 3333 3434 3535 3636 3737 3838 3939
8
COMMON 2
EPC - 1A
8 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
COMMON11SHUTTER
FANS
+ +-
ANALOG OUTPUTS
Z(0-10 V )
ANALOG INPUTS
ROOM TEMP 1 PT-100
55 66 77 88 99 1010
ROOM TEMP 2
PT-100
OUTSIDE
TEMP
PT-100
OUT
RH
-
+
HUMIDITY (0 - 10V ) Z
22 33 1111 1212
4545 4747
4646
4848
3 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
DIGITAL INPUTS
3 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
2727 2828 2929 3030
HEATER 1
HEATER 2
COOLING
COMMON 1
COMMON 3
SHUTTER
OPEN
SHUTTER
CLOSE
HUMIDITY
COMMON
2222
2323
ALARM 1
NEG PRES
2121
C$
4343 4444
RELAY 5A @ 250 V V (RESISTIVE LOAD)
ALARM 1
COMMON 4
RS 232
PC COMM.
RS 485
EXPANSION BOARD
1
FAN OUTPUTS
2 3 4 5 6 7
3131 3232 3333 3434 3535 3636 3737 3838 3939
8
COMMON 2
EPC - 3A
8 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
COMMON11SHUTTER
FANS
LIGHTING
++ +-
ANALOG OUTPUTS
Z(0-10 V )
ANALOG INPUTS
ROOM TEMP 1
PT-100
55 66 77 88 99 1010
ROOM TEMP 2 PT-100
OUTSIDE
TEMP
PT-100
OUT
RH
-
+
HUMIDITY (0 - 10V ) Z
22 33 44 1111 1212
4545 4747
4646
4848 4949 5050
5 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
-
+
FEEDING
(0 - 10V ) Z
1313 1414
3 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
2727 2828 2929 3030
HEATER 1
HEATER 2
COOLING
COMMON 1
COMMON 3
SHUTTER
OPEN
SHUTTER
CLOSE
HUMIDITY
FEEDING
LIGHTING
C$
4343 4444
RELAY 5A @ 250 V V (RESISTIVE LOAD)
ALARM 1
COMMON 4
DIGITAL INPUTS
FEEDING
COMMON
ALARM 1
NEG PRES
2222
2323
2424
2121
RS 232
PC COMM.
RS 485
EXPANSION BOARD
4343 4444
RELAY 5A @ 250 V V (RESISTIVE LOAD)
ALARM 1
COMMON 4
1
FAN OUTPUTS
2 3 4 5 6 7
3131 3232 3333 3434 3535 3636 3737 3838 3939
8
COMMON 2
RS 232
PC COMM.
RS 485
EXPANSION BOARD
EPC - 4A
8 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
COMMON11SHUTTER
FANS
LIGHTING
++ +-
ANALOG OUTPUTS
Z(0-10 V )
ANALOG INPUTS
ROOM TEMP 1 PT-100
55 66 77 88 99 1010
ROOM
TEMP 2
PT-100
OUTSIDE
TEMP
PT-100
OUT
RH
-
+
HUMIDITY (0 - 10V ) Z
22 33 44 1111 1212
4545 4747
4646
4848 4949 5050
5 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
DIGITAL INPUTS
-
+
FEEDING
(0 - 10V ) Z
1313 1414
-
+
1515 1616
INPUT 1
(0 - 10V ) Z
3 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
2727 2828 2929 3030
HEATER 1
HEATER 2
COOLING
COMMON 1
COMMON 3
SHUTTER
OPEN
SHUTTER
CLOSE
HUMIDITY
FEEDING
LIGHTING
FEEDING
COMMON
2222
2323
2424 2525
ALARM 1
NEG PRES
ELECTRICITY
2121
2626
WATER
CONSUMP.
C$
SUPPLY VOLTAGE
24 VZ +/-15%
SUPPLY VOLTAGE
24 VZ +/-15%
-
+
1717 1818 1919 2020
INPUT 2
(0 - 10V ) Z
SHUTTER
FEEDBACK
1919 2020
SHUTTER
FEEDBACK
-
+
1515 1616
INPUT 1
(0 - 10V ) Z
-
+
1717 1818
INPUT 2
(0 - 10V ) Z
1919 2020
SHUTTER
FEEDBACK
-
+
1515 1616
INPUT 1
(0 - 10V ) Z
-
+
1717 1818
INPUT 2
(0 - 10V ) Z
OUTSIDE
TEMP
PT-100
HUMIDITY (0 - 10V ) Z
COMMON11SHUTTER
FANS
LIGHTING
++ +-
ANALOG OUTPUTS
Z(0-10 V )
22 33 44
3 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
2727 2828 2929 3030
HEATER 1
HEATER 2
COOLING
COMMON 1
ROOM TEMP 1 PT-100
ROOM
TEMP 2
PT-100
ROOM
TEMP 3
PT-100
ROOM TEMP 4 PT-100
4343 4444
RELAY 5A @ 250 V V (RESISTIVE LOAD)
ALARM 1
COMMON 4
4545 4747
4646
4848 4545 5050
5 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
COMMON 3
SHUTTER
OPEN
SHUTTER
CLOSE
COOLING
OPEN
COOLING
CLOSE
LIGHTING
SUPPLY VOLTAGE
24 VZ +/-15%
1
FAN OUTPUTS
2 3 4 5 6 7
3131 3232 3333 3434 3535 3636 3737 3838 3939
8
COMMON 2
8 RELAYS 5A @ 250 V V (RESISTIVE LOAD)
4141
4242
+
-
4040
I
4141
4242
+
-
4040
I
4141
4242
+
-
4040
I
4141
4242
+
-
4040
I
Table 3.1 Unit wiring
1.0
Description
Cable Size
Notes
Table 3.1 shows the connections and recommended cable sizes. Table 3.2 describes the functions of the connections.
1
Pin
Analog output’s common Analog output’s common
1.0
2
Shutter analog output (EPC 3&4) Analog output
1.0
3
Fan’s analog output Analog output
1.0
4
Lighting analog output (EPC 3&4) Analog output
1.0
5
Room Temp 1 PT-100 PT-100 input
1.0
6
Room Temp 1 PT-100 PT-100 input
1.0
7
Room Temp 2 PT-100 PT-100 input
1.0
8
Room Temp 2 PT-100 PT-100 input
1.0
9
Outside Temp PT-100 PT-100 input
1.0
10
Outside Temp PT-100 PT-100 input
1.0
11
Humidity
+ line(0 - 10VZ ) input1.0
12
Humidity
- line (0 - 10VZ ) input
1.0
13
Feeding (EPC 3&4)
+ line(0 - 10VZ )1.0
14
Feeding (EPC 3&4)
- line (0 - 10VZ ) input
1.0
15
Weight 1 (EPC 4)
+ line(0 - 10VZ ) input1.0
16
Weight 1 (EPC 4)
- line (0 - 10VZ ) input
1.0
17
Weight 2 (EPC 4)
+ line(0 - 10VZ ) input1.0
18
Weight 2 (EPC 4)
- line (0 - 10VZ ) input
1.0
19
Weight 3 (EPC 4)
+ line(0 - 10VZ ) input1.0
20
Weight 3 (EPC 4)
- line (0 - 10VZ ) input
1.0
21
Digital input’s common line
Switch to 0 VZ (NO)1.0
22
Alarm 1 digital input
Switch to 0 VZ (NO)1.0
23
Negative pressure digital input
Switch to 0 VZ (NO)1.0
24
Feeding digital input (EPC 3&4)
Switch to 0 VZ (NO)1.0
25
Electricity cons. digital input (EPC 4)
Switch to 0 VZ (NO)1.0
26
Water consumption digital input (EPC 4)
1.0
27
Relay output’s Common 1
1.0
28
Heater 1
1.0
29
Heater 2
1.0
30
Cooling
Relay output (5 A @ 250 VV) Relay output (5 A @ 250 VV) Relay output (5 A @ 250 VV)
1.0
31
Fan output 1 Relay output (5 A @ 250 VV)
1.0
32
Fan output 2 Relay output (5 A @ 250 VV)
1.0
33
Fan output 3 Relay output (5 A @ 250 VV)
1.0
34
Fan output 4 Relay output (5 A @ 250 VV)
1.0
35
Fan output 5 Relay output (5 A @ 250 VV)
1.0
36
Fan output 6 Relay output (5 A @ 250 VV)
1.0
37
Fan output 7 Relay output (5 A @ 250 VV)
2.5
38
Fan output 8 Relay output (5 A @ 250 VV)
1.0
39
Fan Relay output’s Common 2 Fan relay output’s common line
2.5
40
Supply voltage - line (24VZ +/-15% max.350 mA)
2.5
41
Supply voltage + line (24VZ +/-15% max.350 mA)
1.0
42
Common 4 Alarm 1 relay output’s common line
1.0
43
Alarm 1 Relay output (5 A @ 250 V~)
1.0
44
Common 3
1.0
45
Shutter open Relay output (5 A @ 250 VV)
1.0
46
Shutter close Relay output (5 A @ 250 VV)
1.0
47
Humidity Relay output (5 A @ 250 VV)
1.0
48
Feeding (EPC 3&4) Relay output (5 A @ 250 VV)
1.0
49
Lighting (EPC 3&4) Relay output (5 A @ 250 VV)
(mm)
input
16
Shut.Feedb (EPC xA) Shut.Feedb (EPC xA)
Shut.Feedb (EPC xA)
9 pin D connector female
EPC
Standard communication cable
Brown
White
Green
Note: For 9600 baud rate, cable length must be maximum 10 meters.
PC
9 pin D connector male
4.RS-232 SERIAL INTERFACE, PROGRAMMING THE DEVICE OVER PC
4.1 CABLE CONNECTION BETWEEN RS-232 TERMINAL OF THE DEVICE AND PC
The PC interface kit comprises of a 9 pin D connector/FCC68(4 pin) connection lead with 2 meters of cable and the optional PC Software (Supplied on CD-ROM)
RS-232 non-isolated Serial interface Modbus RTU communication protocol, Selectable Baud Rate, 8 data bits, Selectable Parity, Selectable Stop Bit.
4.2 PC INTERFACE
4.2.1 TECHNICAL SPECIFICATIONS
17
5. USER SECTION
PROCESS VALUES
SYSTEM MONITORING
FEEDING CONSUMPTION
WEIGHING1 LOG
WEIGHING2 LOG
WEIGHING3 LOG
ELECTRICITY ENERGY
CONSUMPTION
WATER CONSUMPTION
SET VALUES
ALARM SET VALUES
PROCESS OUTPUTS
MAX & MIN VALUES 1
SET SHUTTER
FEEDING PARAMETERS
LIGHTING PARAMETERS
(NOTE: 7)
(NOTE: 7)
(NOTE: 7)
(NOTE: 7)
NOTES:
1: If CONTROL FUNC PAGE 2 PAGE FEEDING parameter is enabled then this page is visible 2: If CONTROL FUNC PAGE 2 PAGE CHICKS W1 parameter is enabled then this page is visible 3: If CONTROL FUNC PAGE 2 PAGE CHICKS W2 parameter is enabled then this page is visible. 4: If the device is EPC-4A then this page is not visible. If the device is EPC-4 and CONTROL FUNC PAGE 2 PAGE CHICKS W3 parameter is enabled then this page is visible. 5: If CONTROL FUNC PAGE 1 PAGE ELECT CONSUM parameter is enabled then this page is visible 6: If CONTROL FUNC PAGE 1 PAGE WATER CONSUM parameter is enabled then this page is visible 7: If the last parameter is selected. 8: If CONTROL FUNC PAGE 1 PAGE CURVE parameter is enabled then this page is visible 9: If CONTROL FUNC PAGE 2 PAGE LIGHTING parameter is enabled then this page is visible
(NOTE: 1)
(NOTE: 2)
(NOTE: 3)
(NOTE: 4)
(NOTE: 5)
(NOTE: 6)
(NOTES:1, 8)
(NOTES:8, 9)
EVENTS
MAX & MIN VALUES 2
5.1 EASY ACCESS DIAGRAM FOR PAGES
18
(EPC 4)
(EPC 4)
(EPC 4)
(EPC 4)
(EPC 4)
(EPC 3&4)
(EPC 3&4)
(EPC 3&4)
5.2 SHORTCUT BUTTONS
and buttons are used to access to the pages, some pages can be accessed direct by
pushing their buttons. These buttons are called “shortcut buttons”. Shortcut buttons and their pages are seen below;
PROCESS
VALUES
19.07.06 14:30:21
HOUSE 20.2°C OUT 12.1°C HUMIDITY 65%
DAY -5
PROCESS OUTPUTS
PROCESS OUTPUTS HEATING1 : 0% HEATING2 : 0% COOLING : 0% HUMIDITY : 0% TUNNEL VENT. : 0%00 SHUTTER : 0%00 LIGHTING ANALOG: 0%
ALARM SET
VALUES
ALARM SET VALUES
ABSOLUTE MIN: 0.0°C ABSOLUTE MAX: 99.0°C DIFFERENTIAL: 0.0°C TYPE :NONLATCH
MAX & MIN
MAX & MIN VALUES 1
HOUSE MIN : 0.0°C TIME : 00.00 HOUSE MAX : 0.0°C TIME : 00.00
MAX & MIN VALUES 2
OUTSIDE MIN: 0.0°C TIME : 00.00 OUTSIDE MAX: 0.0°C TIME : 00.00
MAX & MIN MAX & MIN
ALARM STATUS 1 ABSOLUTE MIN :OFF ABSOLUTE MAX :OFF DIFFERENTIAL :OFF ALARM1 :OFF NEGATIVE PRESSURE:OFF HUMIDITY SENSOR :OFF NO ENOUGH FEED :OFF
19.07.06 14:30:21
HOUSE 20.2°C OUT 12.1°C HUMIDITY 65%
DAY -5
19.07.06 14:30:21
HOUSE 20.2°C OUT 12.1°C HUMIDITY 65%
DAY -5
ALARM STATUS 2 ROOM1 OFL :OFF ROOM2 OFL :OFF OUTSIDE OFL :OFF
DATE SETUP YEAR : 2007 MONTH : 1 DAY : 24 HOUR : 16 MINUTE : 31 SECOND : 36
19.07.06 14:30:21
HOUSE 20.2°C OUT 12.1°C HUMIDITY 65%
DAY -5
INFLUENCE 1 F.L.O.T/MN.VNT: NON T.L.O.T/MN.VNT: -25.0 MAX.VENT.COOL : 8%00 F.L.O.T/T.OFF : NON T.L.O.T/T.OFF : -25.0
INFLUENCE 2 T.O.TMP OFFS: NON T.RH OFFSET : 5.0 NEG PRESSURE: NON NEG.PRE.TON : 0 NEG.PRE.TOFF: 0
Or
Or
19.07.06 14:30:21
HOUSE 20.2°C OUT 12.1°C HUMIDITY 65%
DAY -5
EVENTS
EVENTS
EVENT 1
11.05.2006 11:07:03
DIFFERENTIAL ALARM
19
Push button to access to curve pages or exit from curve mode pages and return to PROCESS VALUES page
19.07.07 14:30:21 HOUSE 20.2°C
OUT 12.1°C HUMIDITY 10%
DAY 3
CURVE SETUP CURVE STEP: 1 DAY : 1 HOUSE TEMP: 0.0°C MIN. VENT : 0%00 MAX. VENT : 8%00 HUMIDITY : 80%
FORWARD DIRECTION
BACKWARD DIRECTION
(NOTE:1)
NOTES:
1. If CONTROL FUNC PAGE 1 PAGE CURVE parameter is enabled then this page is visible.
2. If CONTROL FUNC PAGE 1 PAGE HUMIDITY parameter is enabled then CURVE SETUP PAGES HUMIDITY parameter’s value can change.
(NOTE: 3)
...
...
...
FEEDING PARAMETERS CURVE STEP 1
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<GR>
FEEDING PARAMETERS CURVE STEP 9
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<GR>
FEEDING PARAMETERS CURVE STEP 10
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<GR>
LIGHTING PARAMETERS CURVE STEP 1
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP 9
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP 10
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
(EPC 3&4)
(EPC 3&4)
(EPC 3&4)
(EPC 3&4)
(EPC 3&4)
(EPC 3&4)
CURVE SETUP CURVE STEP: 1 DAY : 1 HOUSE TEMP: 0.0°C MIN. VENT : 0%00 MAX. VENT : 8%00 HUMIDITY : 80%
CURVE SETUP CURVE STEP: 2 DAY : 5 HOUSE TEMP: 0.0°C MIN. VENT : 0%00 MAX. VENT : 8%00 HUMIDITY : 80%
CURVE SETUP CURVE STEP: 10 DAY : 100 HOUSE TEMP: 0.0°C MIN. VENT : 0%00 MAX. VENT : 8%00 HUMIDITY : 80%
(NOTE: 2)
(NOTE: 2)
(NOTE: 2)
...
...
...
FEEDING PARAMETERS CURVE STEP 1 HR:MN FEED<GR> F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
FEEDING PARAMETERS CURVE STEP 1
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
FEEDING PARAMETERS CURVE STEP 2
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<GR>
FEEDING PARAMETERS CURVE STEP 10
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<GR>
LIGHTING PARAMETERS CURVE STEP 1
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP 2
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP 10
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
(EPC 3&4)
(EPC 3&4)
(EPC 3&4)
(EPC 3&4)
CURVE SETUP CURVE STEP: 1 DAY : 1 HOUSE TEMP: 0.0°C MIN. VENT : 0%00 MAX. VENT : 8%00 HUMIDITY : 80%
CURVE SETUP CURVE STEP: 10 DAY : 100 HOUSE TEMP: 0.0°C MIN. VENT : 0%00 MAX. VENT : 8%00 HUMIDITY : 80%
CURVE SETUP CURVE STEP: 2 DAY : 5 HOUSE TEMP: 0.0°C MIN. VENT : 0%00 MAX. VENT : 8%00 HUMIDITY : 80%
(NOTE: 2)
(NOTE: 2)
(NOTE: 2)
(EPC 3&4) (EPC 3&4)
20
5.3 EDITING A PARAMETER
1. Sample display,
2. Push button. First parameter is selected,
3. Use or buttons to edit parameter
Password query page will be seen (once for each new page first parameter accessing),
4. Push button,
5. Use or buttons to enter password,
6. Push button to enter password and return back to the application page,
6.a. If the entered password is wrong then EPC return back to application without tab symbol,
6.b. If the entered password is true then EPC return back to application with tab symbol,
7. Push and buttons to change the value.
8.a. Push button to save the parameter and pass to the next parameter.
8.b. Push button to cancel changing.
INFLUENCE 2 T.O.TMP OFFS: NON T.RH OFFSET : 5.0 NEG PRESSURE: NON
INFLUENCE 2 T.O.TMP OFFS: T.RH OFFSET : 5.0 NEG PRESSURE: NON
NON
INFLUENCE 2 T.O.TMP OFFS: T.RH OFFSET : 5.0 NEG PRESSURE: NON
NON
INFLUENCE 2 T.O.TMP OFFS: 0.5 T.RH OFFSET : NEG PRESSURE: NON
5.0
To understand how to edit a parameter please read following example;
ENTER USER
PASSWORD
0000
INFLUENCE 2 T.O.TMP OFFS: T.RH OFFSET : 5.0 NEG PRESSURE: NON
0.5
INFLUENCE 2 T.O.TMP OFFS: NON T.RH OFFSET : 5.0 NEG PRESSURE: NON
ENTER USER
PASSWORD
0000
ENTER USER
PASSWORD
3675
INFLUENCE 2 T.O.TMP OFFS: NON T.RH OFFSET : 5.0 NEG PRESSURE: NON
PRG ESC
21
DATE: The unit shows current date (day.month.year). TIME: The unit shows current time (hour.minute.second). HOUSE: If TEMPERATURE SETTINGS PAGE SENS OPENING parameter is ROOM1; HOUSE = ROOM1 sensor’s reading temperature value, If TEMPERATURE SETTINGS PAGE SENS OPENING parameter is ROOM2; HOUSE = ROOM2 sensor’s reading temperature value, If TEMPERATURE SETTINGS PAGE SENS OPENING parameter is ROOM1&2; HOUSE =( ROOM1 sensor’s reading temperature value + ROOM2 sensor’s reading temperature value) / 2. ROOM1: Temperature that is reading from ROOM1 sensor. ROOM2: Temperature that is reading from ROOM2 sensor. OUT: Temperature that is reading from OUTSIDE sensor. HUMIDITY: Humidity that is reading from HUMIDITY sensor. FEEDING: Silo feed amount that is reading from FEEDING sensor. DAY: Day number. PROCESS VALUES PAGE DAY, SET VALUES PAGE DAY are the same parameters. PROCESS VALUES PAGE DAY parameter is a read-only parameter. CURVE: If curve mode is enabled then “CURVE” word is seen.
19.07.06 14:30:21
HOUSE 20.2°C OUT 12.1°C HUMIDITY 65%
DAY -5 CURVE
5.4.1 PROCESS VALUE
19.07.06 14:30:21
HOUSE 20.2°C OUT 12.1°C FEEDING 0KG
DAY -5 CURVE
19.07.06 14:30:21
HOUSE 20.2°C
ROOM1 20.2°C ROOM2 30.4°C
HUMIDITY 65%
DAY -5 CURVE
When the EPC is energized first PROCESS VALUES page is seen. PROCESS VALUES page has four different screens. All screens are seen below;
CONTROL FUNC PAGE 1 PAGE HUMIDITY parameter is disabled, CONTROL FUNC PAGE 1 PAGE OUTSIDE TEMP parameter is enabled.
(EPC3 and EPC4 feature)
CONTROL FUNC PAGE 1 PAGE HUMIDITY parameter is enabled, CONTROL FUNC PAGE 1 PAGE OUTSIDE TEMP parameter is disabled.
19.07.06 14:30:21
HOUSE 20.2°C
ROOM1 22.4°C ROOM2 20.2°C
FEEDING 0KG
DAY -5 CURVE
CONTROL FUNC PAGE 1 PAGE HUMIDITY parameter is disabled, CONTROL FUNC PAGE 1 PAGE OUTSIDE TEMP parameter is disabled.
(EPC3 and EPC4 feature)
CONTROL FUNC PAGE 1 PAGE HUMIDITY parameter is enabled, CONTROL FUNC PAGE 1 PAGE OUTSIDE TEMP parameter is enabled.
5.4 SCREENS, PARAMETERS AND FUNCTIONS
22
MAXVNTCURVE/MAXVNT: If curve is enabled; MAXVNTCURVE= Max. Ventilation set value from curve, If curve is disabled; MAXVNT= SET VALUES PAGE VENT. MAX set value, MINVNTCURVE/MINVNT: If curve is enabled; MINVNTCURVE= Min. Ventilation set value from curve, If curve is disabled; MINVNT= SET VALUES PAGE VENT. MIN set value, TMPSETCURVE/TMPSET: If curve is enabled; TMPSETCURVE= HOUSE TEMP set value from curve, If curve is disabled; TMPSET= SET VALUES PAGE TEMP.HOUSE set value.
ROOM1 TEMP: ROOM1 SENSOR reading temperature value. ROOM2 TEMP: ROOM2 SENSOR reading temperature value. OUTSIDE TMP: OUTSIDE SENSOR reading temperature value.
5.4.2 SYSTEM MONITORING
SYSTEM MONITORING TMPSETCURVE: 20.0°C ROOM1 TEMP : 15.1°C ROOM2 TEMP : 19.4°C OUTSIDE TMP: 25.3°C MAXVNTCURVE: 8%00 MINVNTCURVE: 0%00 TUNNEL VENT: 0%00
SYSTEM MONITORING TMPSET: 20.0°C ROOM1 TEMP : 15.1°C ROOM2 TEMP : 19.4°C OUTSIDE TMP: 25.3°C MAXVNT : 8%00 MINVNT : 0%00 TUNNEL VENT: 0%00
SYSTEM MONITORING TMPSETCURVE: 20.0°C ROOM1 TEMP : 15.1°C ROOM2 TEMP : 19.4°C MAXVNTCURVE: 8%00 MINVNTCURVE: 0%00 TUNNEL VENT: 0%00
SYSTEM MONITORING TMPSET: 20.0°C ROOM1 TEMP : 15.1°C ROOM2 TEMP : 19.4°C MAXVNT : 8%00 MINVNT : 0%00 TUNNEL VENT: 0%00
SYSTEM MONITORING page has four different screens. All screens are seen below;
CONTROL FUNC PAGE 1 PAGE CURVE parameter is enabled, CONTROL FUNC PAGE 1 PAGE OUTSIDE TEMP parameter is enabled.
CONTROL FUNC PAGE 1 PAGE CURVE parameter is disabled, CONTROL FUNC PAGE 1 PAGE OUTSIDE TEMP parameter is enabled.
CONTROL FUNC PAGE 1 PAGE CURVE parameter is enabled, CONTROL FUNC PAGE 1 PAGE OUTSIDE TEMP parameter is disabled.
CONTROL FUNC PAGE 1 PAGE CURVE parameter is disabled, CONTROL FUNC PAGE 1 PAGE OUTSIDE TEMP parameter is disabled.
FEEDING CONSUMPTION
03.07.06 02:11:27 TARE : NO RESET CONSUM: NO REQUIREDFEED: 151KG EXIST FEED : 368KG TOTAL CONSUM: 8400KG DAY NUMBER : 12
TARE: Tare enable parameter (Range: NO- YES / Factory Setting: NO). RESET CONSUM: (Range: NO- YES / Factory Setting: NO).
To reset FEEDING CONSUMPTION TOTAL CONSUM parameter, please change FEEDING CONSUMPTION
RESET CONSUM parameter from NO to YES and push button, after that the
FEEDING CONSUMPTION TOTAL CONSUM parameter will reset and FEEDING CONSUMPTION REST CONSUM parameter will change from YES to NO. Also, curve enable event will reset FEEDING CONSUMPTION TOTAL CONSUM parameter. REQUIREDFEED: Required feed amount to terminate step. EXIST FEED: Feed weigh in silo. TOTAL CONSUM: Total feed consumption at the active curve. DAY NUMBER: Day Number.
5.4.3 FEEDING CONSUMPTION (EPC 3&4)
23
(NOTE-1)
(NOTE-1)
(NOTE-1)
(NOTE-1)
NOTE-1: If VENTIL.PARAMETERS PAGE FAN CONT. Parameter is TUNNEL, then TUNNEL VENT is shown. If the
parameter value is BASIC&TUN. and the ventilation level is basic ventilation, then BASIC VENT is shown. If the parameter value is BASIC&TUN. and the ventilation level is tunnel ventilation, then TUNNEL VENT is shown.
WEIGHING1 LOG
03.07.06 02:11:27 TARE : NO LOG CLEAR : NO ACT AVERAGE : 151GR YSTR AVERAGE: 143GR TOTAL WEIGH : 980GR DAY NUMBER : 12
DATE: The unit shows current date (day.month.year). TIME: The unit shows current time (hour.minute.second). LOG CLEAR: Clear today and yesterday log fields (Range: NO- YES / Factory Setting: NO). ACT AVERAGE: Actual average weigh (GR).
Number Of Record: Quantitiy of recorded weigh in WEIGHING PARAMETERS PAGE AW SMPL PER time. Number Of Record can’t be lower than WEIGHING PARAMETERS PAGE AW MIN SMP. If Number Of Record is lower than WEIGHING PARAMETERS PAGE AW MIN SMP, new ACTUAL AVERAGE WEIGH is not calculated and EPC keeps on using old ACTUAL AVERAGE WEIGH till Number Of Record will reach to WEIGHING PARAMETERS PAGE AW MIN SMP.
YSTR AVERAGE: Yesterday average weigh(GR).
Number Of Yesterday’s Records: Quantitiy of recorded weigh in yesterday.
5.4.4 WEIGHING LOG (EPC 4)
3
Record No=1
Record No=Number Of Record
WEIGHT[Record No]
Number Of Record
ACTUAL AVERAGE WEIGH =
3
Record No=1
Record No=Number Of Yesterday’s Records
WEIGHT[Record No]
Number Of Record
YESTERDAY AVERAGE WEIGH =
WEIGHING3 LOG
03.07.06 02:11:27 TARE : NO LOG CLEAR : NO ACT AVERAGE : 351GR YSTR AVERAGE: 348GR TOTAL WEIGH : 3980GR DAY NUMBER : 12
WEIGHING2 LOG
03.07.06 02:11:27 TARE : NO LOG CLEAR : NO ACT AVERAGE : 467GR YSTR AVERAGE: 458GR TOTAL WEIGH : 1400GR DAY NUMBER : 12
24
(NOTE-1)
NOTE-1: If the device is EPC-4A then this page is not shown.
ELECTRICITY ENERGY CONSUMPTION
03.07.06 02:11:27 RESET CONSUM: NO DAILY CONSUM: 15KWH TOTAL CONSUM: 5018KWH DAY NUMBER : 12
DATE: The unit shows current date (day.month.year). TIME: The unit shows current time (hour.minute.second). RESET CONSUM: Reset DAILY CONSUM and TOTAL CONSUM parameters
(Range: NO- YES / Factory Setting: NO).
DAILY CONSUM: Daily electricity consumption (Kwh). TOTAL CONSUM: Total electricity consumption (Kwh) at the active curve. DAY NUMBER: Day Number.
Curve enable event will reset ELECTRICITY ENERGY CONSUMPTION PAGE DAILY CONSUM and ELECTRICITY ENERGY CONSUMPTION PAGE TOTAL CONSUM parameters.
To switch ELECTRICITY ENERGY CONSUMPTION PAGE DAILY CONSUM to enabled from disabled and
pushing button will reset ELECTRICITY ENERGY CONSUMPTION PAGE DAILY CONSUM and
ELECTRICITY ENERGY CONSUMPTION PAGE TOTAL CONSUM parameters. ELECTRICITY ENERGY CONSUMPTION PAGE DAILY CONSUM parameters is reset at each equinox.
5.4.5 ELECTRICITY ENERGY CONSUMPTION (EPC 4)
WATER CONSUMPTION
03.07.06 02:11:27 RESET CONSUM: NO DAILY CONSUM: 430LT TOTAL CONSUM: 15316LT DAY NUMBER : 12
DATE: The unit shows current date (day.month.year). TIME: The unit shows current time (hour.minute.second). RESET CONSUM: Reset DAILY CONSUM and TOTAL CONSUM parameters
(Range: NO- YES / Factory Setting: NO).
DAILY CONSUM: Daily water consumption (Liter). TOTAL CONSUM: Total water consumption (Liter). DAY NUMBER: Day Number (Read only).
To reset WATER CONSUMPTION PAGE DAILY CONSUM and WATER CONSUMPTION PAGE TOTAL CONSUM parameters, please change
WATER CONSUMPTION PAGE RESET CONSUM parameter from NO to YES and push button,
after that the WATER CONSUMPTION PAGE DAILY CONSUM and WATER CONSUMPTION PAGE TOTAL CONSUM parameters will reset and WATER CONSUMPTION PAGE RESET CONSUM parameter will change from YES to NO.
Also, curve enable event will reset WATER CONSUMPTION PAGE DAILY CONSUM and WATER CONSUMPTION PAGE TOTAL CONSUM parameters.
5.4.6 WATER CONSUMPTION (EPC 4)
25
SET VALUES TEMP.HOUSE: 20.0°C TEMP.HEAT : -2.0°C TEMP.COOL : 2.0°C HUMIDITY : 20% VENT.MIN : 0%00 VENT.MAX : 8%00 DAY : -5
TEMP.HOUSE: Temperature house set value (Range: 0.0 °C - 50.0 °C / Factory Setting: 30.0 °C). TEMP. HEAT: Temperature heat set value
(If HEATING1 PARAMETERS PAGE SET POINT or HEATING2 PARAMETERS PAGE SET POINT is ABSOLUTE then; Range: 0.0 °C - 40.0 °C otherwise, Range: -9.9 °C - 0.0 °C / Factory Setting: -0.5 °C) HEATING1 PARAMETERS PAGE SET POINT and HEATING2 PARAMETERS PAGE SET POINT parameters are the same. TEMP.COOL: Temperature cool set value (If COOLING PARAMETERS PAGE SET POINT is ABSOLUTE then Range: 0.0 °C - 40.0 °C otherwise 0.0 °C - 9.9 °C/ Factory Setting: 4.0 °C)
HUMIDITY: Humidity set value (Range: 0% RH - 100% RH / Factory Setting: 65% RH). VENT.MIN: Minimum ventilation set value (Range: 0%00 - 8%00 / Factory Setting: 0%00). VENT.MAX: Maximum ventilation set value (Range: 0%00 - 8%00 / Factory Setting: 8%00) DAY: Current day set number. PROCESS VALUES PAGE DAY, SET VALUES PAGE DAY are the same
parameters.
SET VALUES PAGE DAY parameter can change. (Range: -5 - 999 / Factory Setting: -1)
5.4.7 SET VALUES
SET VALUES TEMP.HEAT : -2.0°C TEMP.COOL : 2.0°C DAY : -5
CURVE is DISABLED
CURVE is ENABLED
Page I Page II
SET SHUTTER CORRMINVENT: 0% CORRMAXVENT: 0% CORRPBVENT : 0.0%
CORRMINVENT: Shutter minimum set value depends on Min. Vent. set value (Range: -20% - 20% / Factory Setting: 0%) CORRMAXVENT: Shutter maximum set value depends on Max. Vent. set value (Range: -20% - 20% / Factory Setting: 0%) CORRPBVENT: Correction for Shutter set value depends on ventilation (Range: -9% - 70 % / Factory Setting: 0.0 %)
Push button to access to ALARM SET VALUES PAGE (If no parameter is selected)
Push button to access to PROCESS VALUES PAGE (If no parameter is selected)
Push button to access to FEEDING PARAMETERS PAGE (If the last parameter is selected)
5.4.8.1 SHUTTER PARAMETERS
5.4.8 SHUTTER
SET VALUES page showing depends on curve selection. If curve is enabled “Page II” is seen, otherwise “Page I” is seen.
26
5.4.8.2 SHUTTER FUNCTION
1. Shutter analog output:
Shutter value is related with SET SHUTTER PAGE CORRMINVENT, SET SHUTTER PAGE CORRMAXVENT, SET SHUTTER PAGE CORRPBVENT and ventilation outputs.
Shutter analog output (SHUTTER) is between 0 VZ - 10 VZ.
Settemp
(NOTE1)
House [°C]
Shutter Analog[V]
NOTE1:
If curve is enabled; Settemp= HOUSE TEMP from curve, Min.Vent= MIN. VENT from curve, Max.Vent=MAX. VENT from curve, If curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE, Min.Vent= SET VALUES PAGE VENT. MIN, Max.Vent= SET VALUES PAGE VENT. MAX.
NOTE2:
A: Settemp(NOTE1)+SET VENTILATION PAGE VENT3.
10.0
2. Shutter motorized control
Default control mode is AUTO.
Push button to switch between AUTO and MANUAL control modes.
Manual Control: Control the shutter by using buttons.
Auto Control: Control the shutter by using SHUTTER PARAMETERS PAGE parameters.
Control with Feedback(For EPC-1A,EPC-3A,EPC-4A): Control the shutter with shutter feedback
analog input. Shutter position is measured from shutter feedback analog input(potantiometer input).
SHUTTER PARAMETERS PAGE STROKE TIME: It can be adjusted from 5 to 600 second. It defines after how many seconds shutter is completely opened. For determining the parameter correctly, close the shutter manually. Be sure that shutter is closed completely, then open it manually without stopping and measure that how many seconds have passed for opening it completely. Parameter must be entered “measured value + 5% of measured value”.
SHUTTER PARAMETERS PAGE STEP: It can be adjusted from 0.1 to 5.0 %. It is % of SHUTTER PARAMETERS PAGE STROKE TIME parameter. Minimum movement steps of shutter while opening or closing are determined as % ratio. If shutter oscillates while controlling, INCREASE this parameter value.
Min. Vent
(NOTE1)
SET SHUTTER PAGE
CORRMINVENT
SET SHUTTER
CORRMAXVENT
SHUTTER PARAMETERS STROKE TIME: 100SEC STEP : 1.0%
MAN
AUTO
SHUTTERSHUTTER
SET SHUTTER PAGE
CORRPBVENT
27
SHUTTER PARAMETERS STROKE TIME: 100SEC STEP : 1.0% SHUT.FEEDB.: ENABLE
(For EPC-1,EPC-3,EPC-4)
(For EPC-1A,EPC-3A,EPC-4A)
If VENTIL. PARAMETERS PAGE FAN CONT.:TUNNEL If VENTIL. PARAMETERS PAGE FAN CONT.:BASIC&TUN.
A(NOTE2)
House [°C]
10.0
SET SHUTTER
CORRMAXVENT
SET SHUTTER PAGE
CORRPBVENT
Shutter Analog[V]
0.0
If VENTIL. PARAMETERS PAGE FAN CONT. parameter is BASIC&TUN. then Shutter Analog value is 0V on basic ventilation section and Shutter motorized control operates only tunnel ventilation section.
HR:MN (COLUMN): Step start time (Range: 00:00 - 23:59 / Factory Setting: 00:00). FEED <KG> (COLUMN): Feed amount for related step (Range: 0 KG - 10000 KG / Factory Settings please look below).
Push button to access to ALARM SET VALUES PAGE (If no parameter is selected)
Push button to access to PROCESS VALUES PAGE (If no parameter is selected)
Push button to change parameter (If no parameter is selected)
Push button to access to LIGHTING PARAMETERS PAGE (If the last parameter is selected)
5.4.9 FEEDING PARAMETERS (EPC 3&4)
FEEDING PARAMETERS
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
Start Time Feed Amount
Depend on sample screen above; EPC gives;
At 06:00: 150kg feed (F1 step) At 10:00: 200kg feed (F2 step) At 12:00: 100kg feed (F3 step) At 19:00: 100kg feed (F4 step) At 22:00: 200kg feed (F5 step)
Important :As long as a running step is not completed EPC will not run next step, even if next step’s start time is reached. So all steps must be entered properly.
FEEDING PARAMETERS
F1: 06:00 150 F2: 10:00 200 F3: 12:00 100 F4: 19:00 100 F5: 22:00 200
HR:MN FEED<KG>
Start Time Feed Amount
FEEDING PARAMETERS
F1: 00:00 600 F2: 07:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
5.4.9.1 FEEDING FUNCTION (EPC 3&4)
28
HR:MN (START TIME COLUMN): Step start time (Range:00:00 - 23:59 / Factory Setting: 00:00). HR:MN (DURATION COLUMN): Step duration (Range:00:00 - 23:59 / Factory Setting: 00:00). OUT% (ANALOG OUTPUT COLUMN): Analog lighting output (Range:0% - 100% / Factory Setting: 0%).
Push button to access to ALARM SET VALUES PAGE (If no parameter is selected)
Push button to access to PROCESS VALUES PAGE (If no parameter is selected)
Push button to change parameter (If no parameter is selected)
Push button to access to SET VALUES PAGE (If the last parameter is selected)
5.4.10 LIGHTING PARAMETERS (EPC 3&4)
LIGHTING PARAMETERS
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
Start Time Duration Analog
Output
Using of LIGHTING PARAMETERS PAGE is explained in details at Technician Section.
ALARM SET VALUES ABSOLUTE MIN: 0.0°C ABSOLUTE MAX: 99.0°C DIFFERENTIAL: 0.0°C TYPE :NONLATCH
ABSOLUTE MIN: Absolute minimum alarm set value (Range: 0.0 °C - 50.0 °C / Factory Setting: 16.0 °C). ABSOLUTE MAX: Absolute maximum alarm set value (Range: 0.0 °C - 99.9 °C / Factory Setting: 38.0 °C).
DIFFERENTIAL: Differential alarm set value (Range: 0.0 °C - 25.0 °C / Factory Setting: 6.0 °C). TYPE: Alarm type set value (Range: NONLATCH- LATCH- CYCLIC / Factory Setting: NONLATCH).
5.4.11.1 ALARM SET VALUES
5.4.11 ALARMS
29
5.4.11.2 ALARM TYPES
ALARM SET VALUES ABSOLUTE MIN: 0.0°C ABSOLUTE MAX: 99.0°C DIFFERENTIAL: 0.0°C TYPE :NONLATCH
ALARM STATUS 1 ABSOLUTE MIN :OFF ABSOLUTE MAX :OFF DIFFERENTIAL :OFF ALARM1 :OFF NEGATIVE PRESSURE:OFF HUMIDITY SENSOR :OFF NO ENOUGH FEED :OFF
1. ABSOLUTE MIN alarm:
If Temperature(NOTE1) is lower than ALARM SET VALUES ABSOLUTE MIN value for more than a minute ALARM STATUS 1 ABSOLUTE MIN is switched ON.
EPC has 10 different alarm types. These are listed below;
1- ABSOLUTE MIN alarm, 2- ABSOLUTE MAX alarm, 3- DIFFERENTIAL alarm, 4- ALARM1, 5- NEGATIVE PRESSURE alarm, 6- HUMIDITY SENSOR alarm, 7- NO ENOUGH FEED alarm, 8- ROOM1 OFL alarm, 9- ROOM2 OFL alarm, 10- OUTSIDE OFL alarm.
NOTE1:
If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM1; Temperature = ROOM1 sensor’s temperature, If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM2; Temperature = ROOM2 sensor’s temperature, If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM1&2; Temperature =( ROOM1 sensor’s temperature + ROOM2 sensor’s temperature) / 2.
NOTE2:
If curve is enabled; Settemp= HOUSE TEMP from curve. Min.Vent= MIN. VENT from curve. Max.Vent=MAX. VENT from curve. If curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE. Min.Vent= SET VALUES PAGE VENT. MIN. Max.Vent= SET VALUES PAGE VENT. MAX.
2. ABSOLUTE MAX alarm:
If Temperature(NOTE1) is higher than ALARM SET VALUES ABSOLUTE MAX value for more than a minute ALARM STATUS 1 ABSOLUTE MAX is switched ON.
3. DIFFERENTIAL alarm:
First situation; If outside temperature is lower than Settemp(NOTE2) plus SET VENTILATION PAGE VENTILATION8 and if Temperature (NOTE1) is higher than Settemp(NOTE2) plus SET VENTILATION PAGE VENTILATION8 plus ALARM SET VALUES DIFFERENTIAL for more than a minute ALARM STATUS 1 DIFFERENTIAL alarm is switched ON.
ON
OFF
Process Value [°C]
(NOTE1)
Settemp
(NOTE2)
DIFFERENTIAL
ALARM
SET VENTILATION PAGE
VENTILATION8
ALARM SET VALUES DIFFERENTIAL
ALARM SET VALUES DIFFERENTIAL
Outside temp.
ON
OFF
Process Value [°C]
(NOTE1)
Settemp
(NOTE2)
DIFFERENTIAL
ALARM
SET VENTILATION PAGE
VENTILATION8
ALARM SET VALUES
DIFFERENTIAL
ALARM SET VALUES DIFFERENTIAL
Outside temp.
(Outside temp.<=ALARM SET VALUES ABSOLUTE MAX and
Second situation: If the outside temperature is lower than or equal ALARM SET VALUES PAGE ABSOLUTE MAX and if Temperature (NOTE1) is higher than the outside temperature plus
ALARM SET VALUES PAGE DIFFERENTIAL for more than a minute ALARM STATUS PAGE 1 DIFFERENTIAL alarm is switched ON.
(Outside temp.<=Temperature (NOTE1) + SET VENTILATION PAGE VENTILATION8)
Outside temp.>Temperature (NOTE1) + SET VENTILATION PAGE VENTILATION8)
ALARM SET VALUES ABSOLUTE MAX
ALARM STATUS 2 ROOM1 OFL :OFF ROOM2 OFL :OFF OUTSIDE OFL :OFF
30
Third situation: If Temperature(NOTE1) is higher than ALARM SET VALUES ABSOLUTE MAX plus ALARM SET VALUES DIFFERENTIAL for more than a minute ALARM STATUS 1 DIFFERENTIAL alarm is switched ON.
ON
OFF
Process Value [°C]
(NOTE1)
Settemp
(NOTE2)
DIFFERENTIAL
ALARM
SET VENTILATION PAGE
VENTILATION8
ALARM SET VALUES
DIFFERENTIAL
ALARM SET VALUES
DIFFERENTIAL
Outside temp.
(Outside temp.>ALARM SET VALUES ABSOLUTE MAX)
ALARM SET VALUES ABSOLUTE MAX
19.07.06 14:30:21
HOUSE 20.2°C OUT 12.1°C HUMIDITY 65%
DAY -5
(Outside temp.>Temperature (NOTE1) + SET VENTILATION PAGE VENTILATION8)
NOTE1:
If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM1; Temperature = ROOM1 sensor’s temperature, If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM2; Temperature = ROOM2 sensor’s temperature, If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM1&2; Temperature =( ROOM1 sensor’s temperature + ROOM2 sensor’s temperature) / 2.
NOTE2:
If curve is enabled; Settemp= HOUSE TEMP from curve. Min.Vent= MIN. VENT from curve. Max.Vent=MAX. VENT from curve. If curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE. Min.Vent= SET VALUES PAGE VENT. MIN. Max.Vent= SET VALUES PAGE VENT. MAX.
4. ALARM1 alarm If ALARM1 input is ON then ALARM STATUS 1 alarm is switched ON.
5. NEGATIVE PRESSURE alarm
As long as INFLUENCE 2 PAGE NEG PRESSURE parameter is different from NON, negative pressure input is enabled. Otherwise negative pressure input is disabled.
Negative pressure alarm is ON
INFLUENCE 2 PAGE
NEG.PRE.TOFF
INFLUENCE 2 PAGE
NEG.PRE.TON
ON
OFF
ON
OFF
Time[sec]
Time[sec]
NEG PRESSURE INPUT
NEG PRESSURE ALARM
31
6. HUMIDITY alarm
If HUMIDITY sensor is broken while EPC is working then ALARM STATUS 1 HUMIDITY alarm is switched ON.
Fourth situation: If Temperature(NOTE1) is lower than Settemp(NOTE2) minus ALARM SET VALUES DIFFERENTIAL for more than a minute ALARM STATUS 1 DIFFERENTIAL alarm is switched ON.
12. ALARM STATUS PAGES
ALARM STATUS pages are used to see and clear alarms. If a new alarm is occured then alarm relay and alarm led becomes ON. To switch OFF the alarm relay and alarm led, ALARM STATUS pages are accessed. If an alarm is occured(for example ALARM1 is ON) then;
Push button to access to ALARM STATUS 1 page and clear ALARM1
alarm.
Push button to access to ALARM STATUS 2 page.
Push button to clear alarm output, alarm led and return to the
PROCESS VALUES page.
19.07.06 14:30:21
HOUSE 20.2°C OUT 12.1°C HUMIDITY 65%
DAY -5
ALARM
ON
OFF
TIME[SEC]
ALARM STATUS
ON
OFF
TIME[SEC]
ALARM STATUS
ON
OFF
TIME[SEC]
11. ALARM TYPES: NONLATCH, CYCLIC and LATCH
ALARM SET VALUES TYPE = NONLATCH
ALARM SET VALUES TYPE = LATCH
9. ROOM2 OFL alarm
If ROOM2 sensor is broken while EPC is working then ALARM STATUS 2 ROOM2 OFL alarm is switched ON.
10. OUTSIDE OFL alarm
If OUTSIDE sensor is broken while EPC is working then ALARM STATUS 2 OUTSIDE OFL alarm is switched ON.
ALARM STATUS
ON
OFF
TIME[SEC]
ALARM SET VALUES TYPE = CYCLIC
ALARM STATUS 1 ABSOLUTE MIN :OFF ABSOLUTE MAX :OFF DIFFERENTIAL :OFF ALARM1 :OFF NEGATIVE PRESSURE:OFF HUMIDITY SENSOR :OFF NO ENOUGH FEED :OFF
ALARM STATUS 2 ROOM1 OFL :OFF ROOM2 OFL :OFF OUTSIDE OFL :OFF
32
7. NO ENOUGH FEED alarm
EPC always controls the silo just before to run a step. If FEED UNIT PARAMETERS UNIT parameter is WEIGHT and there is not enough feed in silo to run the step then ALARM STATUS 1 NO ENOUGH FEED alarm is switched ON.
8. ROOM1 OFL alarm
If ROOM1 sensor is broken while EPC is working then ALARM STATUS 2 ROOM1 OFL alarm is switched ON.
PROCESS OUTPUTS HEATING1 : 0% HEATING2 : 0% COOLING : 0% HUMIDITY : 0% TUNNEL VENT. : 0%00 SHUTTER : 0%00 LIGHTING ANALOG: 0%
HEATING1: HEATER 1 output value (Range: 0% - 100%). HEATING2: HEATER 2 output value (Range: 0% - 100%). COOLING: COOLING output value (Range: 0% - 100%). HUMIDITY: HUMIDITY output value (Range: 0% - 100%). VENTILATION: Ventilation output value (Range: 0%00 - 8%00). SHUTTER: Shutter output value (Range: 0%00 - 8%00).
LIGHTING ANALOG: Lighting 0- 10 VZ output value (Range: 0% - 100%).
5.4.12 PROCESS OUTPUTS
MAX & MIN VALUES 1
HOUSE MIN : 0.0°C TIME : 00.00 HOUSE MAX : 0.0°C TIME : 00.00
HOUSE MIN: Minimum Temperature value of last 24 hours (NOTE 1). TIME: Minimum Temperature value’s captured time (hour.minute) (NOTE 1). HOUSE MAX: Maximum Temperature value of last 24 hours (NOTE 1). TIME: Maximum Temperature value’s captured time (hour.minute) (NOTE 1). OUTSIDE MIN: Minimum Temperature value of OUTSIDE of last 24 hours (NOTE 2). TIME: Minimum Temperature value’s captured time (hour.minute) (NOTE 2). OUTSIDE MAX: Maximum Temperature value of OUTSIDE of last 24 hours (NOTE 2). TIME: Maximum Temperature value’s captured time (hour.minute) (NOTE 2).
5.4.13 MAX & MIN VALUES
NOTE 1: MAX & MIN VALUES 1 PAGE shows the saved minimum and maximum temperature values of
last 24 hours that was token from
ROOM1 or ROOM2 or (ROOM1 + ROOM2)/2
The selection depends on SELECT HOUSE SENSOR PAGE FOR MINMAX parameter.
- If sensor is broken then EPC keeps on showing last measured maximum and minimum temperatures.
- If SELECT HOUSE SENSOR PAGE FOR MINMAX parameter is ROOM1&2 and one of two sensors is broken then EPC keeps on working by using other one.
- EPC will show nothing if using sensor or sensors are broken before energized EPC.
NOTE 2:MAX & MIN VALUES 1 PAGE shows the saved minimum and maximum temperature values of last 24 hours that was token from OUTSIDE sensor.
- If outside sensor is broken then EPC keeps on showing last measured maximum and minimum temperatures.
- EPC will show nothing, if outside sensor is broken before energized EPC.
MAX & MIN VALUES 2
OUTSIDE MIN: 0.0°C TIME : 00.00 OUTSIDE MAX: 0.0°C TIME : 00.00
33
5.4.14 ALARM STATUS
ALARM STATUS 1 ABSOLUTE MIN :OFF ABSOLUTE MAX :OFF DIFFERENTIAL :OFF ALARM1 :OFF NEGATIVE PRESSURE:OFF HUMIDITY SENSOR :OFF NO ENOUGH FEED :OFF
ABSOLUTE MIN: Absolute min. alarm status (Range: OFF- ON). ABSOLUTE MAX: Absolute max. alarm status (Range: OFF- ON). DIFFERENTIAL: Differential alarm status (Range: OFF- ON). ALARM1: Alarm1 alarm status (Range: OFF- ON). NEGATIVE PRESSURE: Negative pressure alarm status (Range: OFF- ON). HUMIDITY SENSOR: Humidity sensor overflow alarm status (Range: OFF- ON). NO ENOUGH FEED: No enough feed alarm status (Range: OFF- ON). ROOM1 OFL: Room1 overflow alarm status (Range: OFF- ON). ROOM2 OFL: Room2 overflow alarm status (Range: OFF- ON). OUTSIDE OFL: Outside overflow alarm status (Range: OFF- ON).
ALARM STATUS 2 ROOM1 OFL :OFF ROOM2 OFL :OFF OUTSIDE OFL :OFF
EVENTS
EVENT 1
11.05.2006 11:07:03
DIFFERENTIAL ALARM
EVENT NUMBER: Number of event that is seen. EVENT DATE: Date of event that is seen. EVENT TIME: Time of event that is seen. EVENT: EPC saves last 50 events.
Event Types;
1. MAX TEMP ALARM,
2. ABSOLUTE MIN ALARM,
3. ABSOLUTE MAX ALARM,
4. DIFFERENTIAL ALARM,
5. EXTERNAL ALARM1,
6. NEG PRESSURE ALARM,
7. NO ENOUGH FEED ALARM,
8. HUMIDITY OFL,
9. ROOM1 OFL,
10. ROOM2 OFL,
11. OUTSIDE OFL.
12. POWER FAILURE
13. SMS COULD NOT BE SENT
Push button to access to older event(if you are already in EVENTS PAGE)
5.4.15 EVENTS
EVENT NUMBER
EVENT DATE
EVENT TIME
EVENT
34
INFLUENCE 1 F.L.O.T/MN.VNT: NON T.L.O.T/MN.VNT: -25.0 MAX.VENT.COOL : 8%00 F.L.O.T/T.OFF : NON T.L.O.T/T.OFF : -25.0
F.L.O.T/MN.VNT: Influence Factor Low Outside Temperature/ Minimum Ventilation set value (Range: NON, 0.5, 0.75, 1.0, 1.5, 2.0 / Factory Setting: NON). T.L.O.T/MN.VNT: Trajectory Factor Low Outside Temperature/ Minimum Ventilation set value (Range: -50.0 °C - -5.0 °C / Factory Setting: -25.0 °C) MAX.VENT.COOL: Maximum Ventilation of Cooling set value (Range: NON, 0%00 - 8%00 / Factory Setting: 8%00). F.L.O.T/T.OFF: Influence Factor Low Outside Temperature/ Temperature Offset set value (Range: NON, 0.5, 0.75, 1.0, 1.5, 2.0 / Factory Setting: NON). T.L.O.T/T.OFF: Trajectory Factor Low Outside Temperature/ Temperature Offset set value (Range: -50.0 °C - -5.0 °C / Factory Setting: -25.0 °C).
5.4.16.1 INFLUENCE PARAMETERS
5.4.16 INFLUENCES
INFLUENCE 2 T.O.TMP OFFS: NON T.RH OFFSET : 5.0 NEG PRESSURE: NON NEG.PRE.TON : 0 NEG.PRE.TOFF: 0
T.O.TMP OFFS: Influence Factor High Outside on Temperature Offsets set value (Range: NON, 0.5, 0.75, 1.0, 1.5, 2.0 / Factory Setting: NON). T.RH OFFSET: Trajectory Factor High Outside Temperature/ Temperature Offsets set value (Range: 5.0 °C - 50.0 °C / Factory Setting: 5.0 °C). NEG PRESSURE: Negative pressure influence set value (Range: 5.0 °C - 50.0 °C / Factory Setting: 5.0 °C). NEG.PRE.TON: Negative pressure influence Ton delay set value (Range: 0 sec - 30 sec / Factory Setting: 0 sec). NEG.PRE.TOFF: Negative pressure influence Toff delay set value (Range: 0 sec - 30 sec / Factory Setting: 0 sec).
35
5.4.16.2 INFLUENCE FUNCTIONS
1. Influence cooling on maximum ventilation:
If the COOLING PARAMETERS PAGE CONTROL parameter is ON/OFF and COOLING OUTPUT is ON then Max. Vent value is equal to INFLUENCE 1 PAGE MAX. VENT. COOL parameter. If the INFLUENCE 1 PAGE MAX. VENT. COOL parameter is NON or COOLING OUTPUT is OFF then Max. Vent value is defined in NOTE2.
Outside Temp. [°C] (NOTE2)
Min.Vent [%]
NOTE1:
If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM1; Max. Inf. = Min.Vent * INFLUENCE 1 PAGE T.L.O.T/MN.VNT, If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM2; Max. Inf. = (any offset parameter from A(NOTE3) to H(NOTE3)) * INFLUENCE 1 PAGE T.L.O.T/T.OFF, Influence factor high outside temperature on temperature offset; Max. Inf. = (any offset parameter from A(NOTE3) to H(NOTE3)) * INFLUENCE 2 PAGE T.O.TMP OFFS.
NOTE2:
If curve is enabled; Settemp= HOUSE TEMP from curve; Min.Vent= MIN. VENT from curve; Max.Vent=MAX. VENT from curve, If curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE. Min.Vent= SET VALUES PAGE VENT. MIN. Max.Vent= SET VALUES PAGE VENT. MAX.
NOTE3:
A = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION1. B = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION2. C = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION3. D = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION4. E = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION5. F = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION6. G = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION7. H = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION8.
2. Influence low outside temperature on minimum ventilation
If outside temperature lower than inside to avoid draughts, minimum ventilation is depended on INFLUENCE 1 PAGE F.L.O.T/MN.VNT and INFLUENCE 1 PAGE T.L.O.T/MN.VNT parameters. The influence starts 5 °C below the settemp.
INFLUENCE 1 PAGE
T.L.O.T/MN.VNT
Max. Inf.
VENTILATION
OUTPUT[%]
INFLUENCE 1 PAGE
MAX. VENT. COOL
Max. Vent
(NOTE2)
COOLING
OUTPUT[%]
ON
OFF
Process Value [°C]
(NOTE1)
Process Value [°C]
(NOTE1)
0%15
0%30
Example: Set minimum ventilation 30% Settemp 22 °C
INFLUENCE 1 PAGE T.L.O.T/MN.VNT -15 °C INFLUENCE 1 PAGE F.L.O.T/MN.VNT 0.5
30 * 0.5; Max. Inf= 0%15
2217
7
36
Outside Temp. [°C]
(NOTE2)
INFLUENCE 2 PAGE
T.RH OFFSET
Max. Inf.
4. Influence factor high outside temperature on temperature offsets If outside temperature higher than H(NOTE3) to avoid draughts, ventilation stages are depended on
INFLUENCE 2 PAGE T.O.TMP OFFS and INFLUENCE 2 PAGE T.RH OFFSET parameters.The influence starts 5 °C above the H(NOTE3).
Temperature
offset highest
position [°C]
Example: SET VENTILATION PAGE VENTILATION8 10.0 °C Set temperature offset(stage 1) 5.0 °C Settemp 22 °C
INFLUENCE 2 PAGE T.RH OFFSET 15 °C INFLUENCE 2 PAGE T.O.TMP OFFS 0.5
SET VENTILATION PAGE VENTILATION8 + Settemp = 22 + 10; SET VENTILATION PAGE VENTILATION8 + Settemp = 32 °C Max. Inf= 5.0 *0.5 Max. Inf= 2.5 °C
2.5
5.0
32 37 47
3. Influence factor low outside temperature on temperature offsets
If outside temperature lower than inside to avoid draughts, ventilation stages are depended on INFLUENCE 1 PAGE F.L.O.T/T.OFF and INFLUENCE 1 PAGE T.L.O.T/T.OFF parameters. The influence starts 5 °C below the settemp.
Temperature
offset highest
position [°C]
Max. Inf.
Example: Set temperature offset(stage 1) 5.0 °C Settemp 22 °C
INFLUENCE 1 PAGE T.L.O.T/T.OFF 15 °C INFLUENCE 1 PAGE F.L.O.T/T.OFF 1.5
Max. Inf= 5.0 *1.5 Max. Inf= 7.5 °C
7.5
INFLUENCE 1 PAGE
T.L.O.T/MN.VNT
5.0
Outside Temp. [°C] (NOTE2)
22177
NOTE1:
If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM1; Max. Inf. = Min.Vent * INFLUENCE 1 PAGE T.L.O.T/MN.VNT, If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM2; Max. Inf. = (any offset parameter from A(NOTE3) to H(NOTE3)) * INFLUENCE 1 PAGE T.L.O.T/T.OFF, Influence factor high outside temperature on temperature ofset; Max. Inf. = (any offset parameter from A(NOTE3) to H(NOTE3)) * INFLUENCE 2 PAGE T.O.TMP OFFS,
NOTE2:
If curve is enabled; Settemp= HOUSE TEMP from curve; Min.Vent= MIN. VENT from curve; Max.Vent=MAX. VENT from curve, If curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE. Min.Vent= SET VALUES PAGE VENT. MIN. Max.Vent= SET VALUES PAGE VENT. MAX.
NOTE3:
A = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION1. B = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION2. C = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION3. D = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION4. E = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION5. F = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION6. G = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION7. H = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION8.
37
5. Influence negative pressure input on ventilation and shutter:
Negative pressure influence affects to reduce ventilation up to minimum ventilation. Also it set shutter to maximum value. As long as INFLUENCE 2 PAGE NEG PRESSURE parameter is different from NON, negative pressure is enabled. Otherwise negative pressure influence is disabled.
Briefly(it is assumed that negative pressure is active);
- INFLUENCE 2 PAGE NEG PRESSURE is “NON” influence is disabled, ventilation and shutter will not change
- INFLUENCE 2 PAGE NEG PRESSURE is anything but “NON” influence is enabled, ventilation = ventilation - INFLUENCE 2 PAGE NEG PRESSURE shutter = shutter’s maximum value
INFLUENCE 2 PAGE
NEG.PRE.TOFF
INFLUENCE 2 PAGE
NEG.PRE.TON
ON
OFF
ON
OFF
Time[sec]
Time[sec]
NEG PRESSURE INPUT
NEG PRESSURE INFLUENCE
DATE SETUP YEAR : 2006 MONTH : 1 DAY : 24 HOUR : 16 MINUTE : 31 SECOND : 36
YEAR: Current year set value (Range: 0- 99 / Factory Setting: Current year). MONTH: Current month set value (Range: 1- 12 / Factory Setting: Current month). DAY: Current day set value (Range: 1- 31 / Factory Setting: Current day). HOUR: Current hour set value (Range: 0- 23 / Factory Setting: Current hour). MINUTE: Current minute set value (Range: 0- 59 / Factory Setting: Current minute). SECOND: Current second set value (Range: 0- 59 / Factory Setting: Current second).
5.4.17 DATE SETUP
38
CURVE SETUP CURVE STEP: X DAY : 1 HOUSE TEMP: 0.0°C MIN. VENT : 0%00 MAX. VENT : 8%00 HUMIDITY : 0%
DAY: Day set value (Range: 0- CURVE STEP2 DAY / Factory settings are below). HOUSE TEMP: House Temperature set value (Range: 0.0 °C- 50.0 °C / Factory settings are below). MIN. VENT: Minimum ventilation set value (Range: 0%00- 8%00 / Factory settings are below). MAX. VENT: Maximum ventilation set value (Range: 0%00- 8%00 / Factory settings are below). HUMIDITY: Humidity set value (Range: 0%- 100% / Factory settings are below).
5.4.18.1 CURVE SETUP
X is the number between 1 and 10
5.4.18 CURVE
CURVE SETUP CURVE STEP: 1 DAY : 1 HOUSE TEMP: 33.0°C MIN. VENT : 0%01 MAX. VENT : 1%00 HUMIDITY : 65%
CURVE SETUP CURVE STEP: 2 DAY : 3 HOUSE TEMP: 32.0°C MIN. VENT : 0%20 MAX. VENT : 1%00 HUMIDITY : 65%
CURVE SETUP CURVE STEP: 3 DAY : 7 HOUSE TEMP: 28.0°C MIN. VENT : 0%50 MAX. VENT : 2%00 HUMIDITY : 65%
CURVE SETUP CURVE STEP: 4 DAY : 14 HOUSE TEMP: 26.0°C MIN. VENT : 1%00 MAX. VENT : 4%00 HUMIDITY : 65%
CURVE SETUP CURVE STEP: 6 DAY : 28 HOUSE TEMP: 23.0°C MIN. VENT : 3%00 MAX. VENT : 8%00 HUMIDITY : 65%
CURVE SETUP CURVE STEP: 7 DAY : 34 HOUSE TEMP: 20.0°C MIN. VENT : 4%00 MAX. VENT : 8%00 HUMIDITY : 65%
CURVE SETUP CURVE STEP: 8 DAY : 34 HOUSE TEMP: 20.0°C MIN. VENT : 4%00 MAX. VENT : 8%00 HUMIDITY : 65%
CURVE SETUP CURVE STEP: 9 DAY : 34 HOUSE TEMP: 20.0°C MIN. VENT : 4%00 MAX. VENT : 8%00 HUMIDITY : 65%
CURVE SETUP CURVE STEP: 5 DAY : 21 HOUSE TEMP: 24.0°C MIN. VENT : 2%00 MAX. VENT : 6%00 HUMIDITY : 65%
CURVE SETUP CURVE STEP: 10 DAY : 35 HOUSE TEMP: 20.0°C MIN. VENT : 4%00 MAX. VENT : 8%00 HUMIDITY : 65%
FACTORY SETTINGS:
39
HR:MN COLUMN: Step start time (Range: 00:00 - 23:59 / Factory settings are below). FEED <KG> COLUMN: Feed amount for related step (Range: 0 KG - 10000 KG / Factory settings are below).
5.4.18.2 CURVE FEEDING PARAMETERS (EPC 3&4)
FEEDING PARAMETERS CURVE STEP X
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
Start Time Feed Amount
FEEDING PARAMETERS CURVE STEP 1
F1: 07:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
FEEDING PARAMETERS CURVE STEP 2
F1: 07:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
FEEDING PARAMETERS CURVE STEP 3
F1: 07:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
FEEDING PARAMETERS CURVE STEP 4
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
FEEDING PARAMETERS CURVE STEP 5
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
FEEDING PARAMETERS CURVE STEP 6
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
FEEDING PARAMETERS CURVE STEP 7
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
FEEDING PARAMETERS CURVE STEP 8
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
FEEDING PARAMETERS CURVE STEP 9
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
FEEDING PARAMETERS CURVE STEP 10
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
FACTORY SETTINGS:
X is the number between 1 and 10
40
HR:MN (START TIME COLUMN): Step start time (Range: 00:00 - 23:59 / Factory settings are below). HR:MN (DURATION COLUMN): Step duration (Range: 00:00 - 23:59 / Factory settings are below). OUT% (ANALOG OUTPUT COLUMN): Analog lighting output (Range: 0% - 100% / Factory settings are below).
5.4.18.3 CURVE LIGHTING PARAMETERS (EPC 3&4)
LIGHTING PARAMETERS CURVE STEP X
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
Start Time Duration Analog
Output
X is the number between 1 and 10
LIGHTING PARAMETERS CURVE STEP 1
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP 2
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP 3
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP 4
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP 5
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP 6
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP 7
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP 8
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP 9
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP 10
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
FACTORY SETTINGS:
41
5.4.18.4 CURVE FUNCTION
CURVE SETUP CURVE STEP: 1 DAY : 1 HOUSE TEMP: 0.0°C MIN. VENT : 0%00 MAX. VENT : 8%00 HUMIDITY : 80%
3. Programming a curve:
There are 10 steps for programming curve. A CURVE SETUP PAGE DAY parameter value has to be higher than previous step’s CURVE SETUP PAGE DAY parameter value.
If CURVE MODE CURVE parameter is DISABLE then curve is disabled. It means that even if SET VALUES PAGE DAY is between CURVE SETUP PAGE DAY(Step1) and CURVE SETUP PAGE DAY(Step10), curve doesn’t work.
If CURVE MODE CURVE parameter is ENABLE settemp(NOTE1), minimum and maximum ventilations, humidity, feeding, lighting values are calculated by EPC depend on SET VALUES PAGE DAY and curve.
Example; CURVE MODE CURVE parameter is ENABLE. The parameter values are given in graphic below;
12. day is between Step3 and Step4. So 12. day; Settemp(NOTE1) is 22 °C
2. Changing of SET VALUES PAGE DAY parameter: SET VALUES PAGE DAY parameter can be changed in two ways.
- SET VALUES PAGE DAY increases 1 each night at 24:00 hrs.
- SET VALUES PAGE DAY can be changed from SET VALUES PAGE.
NOTE1:
If curve is enabled; Settemp= HOUSE TEMP from curve. Min.Vent= MIN. VENT from curve. Max.Vent=MAX. VENT from curve. If curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE. Min.Vent= SET VALUES PAGE VENT. MIN. Max.Vent= SET VALUES PAGE VENT. MAX.
20
Settemp[°C]
(NOTE1)
Step1 Day=1
Step2 Day=8
Step3 Day=10
Step4 Day=14
Step5 Day=20
Step6 Day=30
Step7 Day=32
Step8 Day=36
Step9 Day=38
Step10 Day=40
24
Day=12
22
Day=-5
1. What is a curve:
Optimal temperature, ventilation, humidity, feeding and lighting values change day by day. EPC can automaticly adjust optimal values depend on entered parameters which are in CURVE SETUP PAGES. This function is called “curve”.
CONTROL FUNC PAGE 1 CURVE : DISABLE HUMIDITY : ENABLE OUTSIDE TEMP: ENABLE COMMUNICATE : ENABLE LOAD DEFAULT: NO WATER CONSUM: ENABLE ELECT CONSUM: ENABLE
Day
Day=999
42
(EPC 4)
70
Day
Humidity[%]
(NOTE1)
Step1 Day=1
Step2 Day=8
Step3 Day=10
Step4 Day=14
Step5 Day=20
Step6 Day=30
Step7 Day=32
Step8 Day=36
Step9 Day=38
Step10 Day=40
80
76
Day=12
73
12. day is between Step3 and Step4. So 12. day; humidity(NOTE1) is 73%
3%00
Max.Vent
(NOTE1)
Step1 Day=1
Step2 Day=8
Step3 Day=10
Step4 Day=14
Step5 Day=20
Step6 Day=30
Step7 Day=32
Step8 Day=36
Step9 Day=38
Step10 Day=40
5%00
Day=12
4%00
12. day is between Step3 and Step4. So 12. day; Max.Vent(NOTE1) is 4%00
0%20
Min.Vent
(NOTE1)
Step1 Day=1
Step2 Day=8
Step3 Day=10
Step4 Day=14
Step5 Day=20
Step6 Day=30
Step7 Day=32
Step8 Day=36
Step9 Day=38
Step10 Day=40
0%40
Day=12
0%30
12. day is between Step3 and Step4. So 12. day; Min.Vent(NOTE1) is 0%30
NOTE1:
If working with curve; Humidity= HUMIDITY from curve + HUMIDITY PARAMETERS PAGE OFFSET. Min.Vent= MIN. VENT from curve. Max.Vent=MAX. VENT from curve. If Curve is disable; Humidity= SET VALUES PAGE HUMIDITY + HUMIDITY PARAMETERS PAGE OFFSET. Min.Vent= SET VALUES PAGE VENT. MIN. Max.Vent= SET VALUES PAGE VENT. MAX.
Day=-5
Day=-5
Day=999
Day=-5
Day
Day=999
Day
Day=999
43
Feeding Parameter (EPC 3&4)
Page Step No
Step1 Day=1
Step2 Day=8
Step3 Day=10
Step4 Day=14
Step5 Day=20
Step6 Day=30
Step7 Day=32
Step8 Day=36
Step9 Day=38
Step10 Day=40
Day=12
At the graphic above, it is seen how feeding is working in curve mode. On 12. Day FEEDING PARAMETERS CURVE STEP 3 page is used for feeding (curve mode is enabled). The same page parameters are also used for 10, 11, 12, 13. Days. On 14. Days FEEDING PARAMETERS CURVE STEP 4 page parameters are used.
The explanation of the graphic is below; SET VALUES PAGE DAY parameter is the current day.
- If SET VALUES PAGE DAY parameter is lower than CURVE STEP2 DAY parameter then FEEDING PARAMETERS CURVE STEP 1 parameters are used by curve.
- If SET VALUES PAGE DAY parameter is higher than CURVE STEP2 DAY parameter or equal to it and it is lower than CURVE STEP3 DAY parameter then FEEDING PARAMETERS CURVE STEP 2 parameters are used by curve.
- If SET VALUES PAGE DAY parameter is higher than CURVE STEP3 DAY parameter or equal to it and it is lower than CURVE STEP4 DAY parameter then FEEDING PARAMETERS CURVE STEP 3 parameters are used by curve.
- If SET VALUES PAGE DAY parameter is higher than CURVE STEP4 DAY parameter or equal to it and it is lower than CURVE STEP5 DAY parameter then FEEDING PARAMETERS CURVE STEP 4 parameters are used by curve.
- If SET VALUES PAGE DAY parameter is higher than CURVE STEP5 DAY parameter or equal to it and it is lower than CURVE STEP6 DAY parameter then FEEDING PARAMETERS CURVE STEP 5 parameters are used by curve.
- If SET VALUES PAGE DAY parameter is higher than CURVE STEP6 DAY parameter or equal to it and it is lower than CURVE STEP7 DAY parameter then FEEDING PARAMETERS CURVE STEP 6 parameters are used by curve.
- If SET VALUES PAGE DAY parameter is higher than CURVE STEP7 DAY parameter or equal to it and it is lower than CURVE STEP8 DAY parameter then FEEDING PARAMETERS CURVE STEP 7 parameters are used by curve.
- If SET VALUES PAGE DAY parameter is higher than CURVE STEP8 DAY parameter or equal to it and it is lower than CURVE STEP9 DAY parameter then FEEDING PARAMETERS CURVE STEP 8 parameters are used by curve.
- If SET VALUES PAGE DAY parameter is higher than CURVE STEP9 DAY parameter or equal to it and it is lower than CURVE STEP10 DAY parameter then FEEDING PARAMETERS CURVE STEP 9 parameters are used by curve.
- If SET VALUES PAGE DAY parameter is higher than CURVE STEP10 DAY parameter or equal to it then FEEDING PARAMETERS CURVE STEP 10 parameters are used by curve.
Step1
Step2
Step3
Step4
Step5
Step6
Step7
Step8
Step9
Step10
Day=-5
Day
Day=999
44
19.07.06 14:30:21
HOUSE 20.2°C OUT 12.1°C HUMIDITY 65%
DAY -5
LIGHTINGLIGHTING
FEEDINGFEEDING
HUMIDITYHUMIDITY
6.1.1 BUTTONS EXPLANATIONS
BUTTONS:
Used to access to technician parameters field and escape function.
Used to access to next page and increase the selected parameter.
Used to access to previous page and decrease the selected parameter.
Used to edit a parameter and access to the next parameter.
Used to check and clear the alarm.
Influences pages shortcut button.
Date page shortcut button.
Curve pages shortcut button.
Shutter manual/ automatic control selection button.
Shutter manual control up button.
Shutter manual control down button.
Process output page shortcut button.
Set values page shortcut button.
Events page shortcut button.
Alarm set values page shortcut button.
Max & min values pages shortcut button.
6.1 FRONT PANEL
6. TECHNICIAN SECTION
Process values page shortcut button
.
45
19.07.06 14:30:21
HOUSE 20.2°C OUT 12.1°C HUMIDITY 65%
DAY -5
LIGHTINGLIGHTING
FEEDINGFEEDING
HUMIDITYHUMIDITY
6.1.2 LEDS EXPLANATIONS
Led no Explanation
1 If technician field is accessed this led illuminates
2 If influence pages are accessed this led illuminates
3 If date setup page is accessed this led illuminates
4 If curve pages are accessed this led illuminates
5 If shutter mode is manual this led illuminates
6 If shutter up relay is on this led illuminates
7 If shutter down relay is on this led illuminates
8 These leds show which fan relays are on
9 These leds show which heat relays are on
10 This led illuminates during cooling relay is on
11 Whenever a new alarm occurs this led illuminates
12 This led illuminates during feeding relay is on(EPC3 and EPC4)
13 This led illuminates during lighting relay is on(EPC3 and EPC4)
14 This led illuminates during humidity relay is on
11
22 33 44 55 66 77
8
9 10 11 12 13
14
46
6.2 EASY ACCESSING DIAGRAM FOR PAGES
TECHNICIAN
PASSWORD
0000
How to access to technician pages?
There must be no selected parameter in current page. The current page must be one of the following pages which are in user field; PROCESS VALUES, SYSTEM MONITORING, FEEDING CONSUMPTION, WEIGHING1 LOG, WEIGHING2 LOG, WEIGHING3 LOG, ELECTRICITY ENERGY CONSUMPTION, WATER CONSUMPTION, SET VALUES, SET SHUTTER, FEEDING PARAMETERS, LIGHTING PARAMETERS, ALARM SET VALUES, PROCESS OUTPUTS, MAX MIN VALUES 1, MAX MIN VALUES 2, EVENTS
Under these conditions, push button.
This page will be seen;
If right password is entered, then HEATING1 PARAMETERS page which is the first page of the technician pages is accessed.
HEATING1 PARAMETERS SENSOR : ROOM1 CONTROL :PROPORTION SET POINT: RELATIVE HYST : 1.0°C PERIOD : 40SEC OFFSET : 0.0°C PROP RAMP: 50SEC
HEATING2 PARAMETERS SENSOR : ROOM1 CONTROL :PROPORTION SET POINT: RELATIVE HYST : 1.0°C PERIOD : 40SEC OFFSET : 0.0°C PROP RAMP: 50SEC
COOLING PARAMETERS SENSOR : ROOM1 CONTROL :PROPORTION SET POINT: RELATIVE HYST : 1.0°C PERIOD : 40SEC OFFSET : 0.0°C PROP RAMP: 50SEC
HUMIDITY CONTROL :PROPORTION HYST : 10% PERIOD : 40SEC OFFSET : 0%
PROP RAMP: 50SEC
VENTIL. PARAMETERS SHIFTING : ON SHIFT&PRP PER: 10MIN
DLY BTWN FANS: 5SEC PRPRTN RAMP : 50SEC SENSOR : ROOM1 FAN CONT.: TUNNEL
SET VENTILATION<°C>
VENT1: 0.5 VENT3: 2.5
VENT2: 1.0 VENT3: 3.0
VENT3: 1.5 VENT3: 3.5 VENT4: 2.0 VENT3: 4.0
SHUTTER PARAMETERS
STROKE TIME: 100SEC
STEP : 0.1%
TEMPERATURE SETTINGS
ROOM1 OFFSET: 0.0°C
ROOM2 OFFSET: 0.0°C
OUT. OFFSET : 0.0°C HUM. OFFSET : 0% SENS MINMAX : ROOM1&2 SENS OPENING: ROOM1&2
CONTROL FUNC PAGE 1
CURVE : DISABLE
HUMIDITY : ENABLE
OUTSIDE TEMP: ENABLE COMMUNICATE : ENABLE LOAD DEFAULT: NO WATER CONSUM: ENABLE ELECT CONSUM: ENABLE
CONTROL FUNC PAGE 2
FEEDING : ENABLE
CHICKS W1 : ENABLE
CHICKS W2 : ENABLE CHICKS W3 : ENABLE LIGHTING : ENABLE LIGHT CONT: MODULATE
FEED UNIT PARAMETERS
UNIT : TIME
FEED PER MIN: 6.0KG
TARE : NO REF WEIGHT : 250KG TAKE REF WEIGHT: NO FEED OFFSET : 0KG
WEIGHT1 CALIBRATION
TARE: NO
REF WEIGHT: 5000GR
TAKE REF WEIGHT: NO
5000GR
WEIGHT2 CALIBRATION TARE: NO REF WEIGHT: 5000GR TAKE REF WEIGHT: NO
5000GR
WEIGHT3 CALIBRATION TARE: NO REF WEIGHT: 5000GR TAKE REF WEIGHT: NO
5000GR
AVERAGE WEIGH1 INITIAL WEIGH: 100GR MINIMUM LIMIT: 30% MAXIMUM LIMIT: 15%
AVERAGE WEIGH2 INITIAL WEIGH: 100GR MINIMUM LIMIT: 30% MAXIMUM LIMIT: 15%
AVERAGE WEIGH3 INITIAL WEIGH: 100GR MINIMUM LIMIT: 30% MAXIMUM LIMIT: 15%
WEIGHING PARAMETERS SS TIME : 1.0SEC SS LIMIT VAL: 15GR AW MIN SMPL : 100 AW SMPL PER : 2HR
WATER AND ELECTRICITY CONSUMPTION PER PULSE ELECTRICITY: 1000WH/P WATER : 0.10LT/P
MODBUS BAUD RATE : 3 STOP BIT : 0 PARITY BIT: 0 SLAVE ID : 1
EDIT PASSWORDS
TECHNICIAN: 0000 USER : 0000
ENTER CAL
PASSWORD
0000
= =
NOTES:
1: If CONTROL FUNC PAGE 2 PAGE FEEDING parameter is enabled then this page is visible. 2: If CONTROL FUNC PAGE 2 PAGE CHICKS W1 parameter is enabled then this page is visible. 3: If CONTROL FUNC PAGE 2 PAGE CHICKS W2 parameter is enabled then this page is visible. 4: If CONTROL FUNC PAGE 2 PAGE CHICKS W3 parameter is enabled then this page is visible. 5: If CONTROL FUNC PAGE 2 PAGE CHICKS W1 parameter is enabled or
CONTROL FUNC PAGE 2 PAGE CHICKS W2
parameter is enabled or
CONTROL FUNC PAGE 2 PAGE CHICKS W3
parameter is enabled then this page is visible. 6: If CONTROL FUNC PAGE 1 PAGE COMMUNICATE parameter is enabled then this page is visible. 7: If CONTROL FUNC PAGE 1 PAGE ELECT CONSUM parameter is enabled or
CONTROL FUNC PAGE 1 PAGE WATER CONSUM
parameter is enabled then this page is visible. 8: If CONTROL FUNC PAGE 1 PAGE HUMIDITY parameter is enabled then this page is visible. 9: If VENTIL. PARAMETERS PAGE FAN CONT. parameter is BASIC&TUN. then this page is shown. 10: If the device is EPC-4A, then CHICKS W3 parameter is not shown. 11: If the device is EPC-1A, EPC-3A, EPC-4A then this page is shown instead of WEIGHT3 CALIBRATION. 12: If the device is EPC-4A, then this page is not shown.
(NOTE: 1) (EPC 3&4)
(NOTE: 2) (EPC 4)
(NOTE: 3) (EPC 4)(NOTE: 4) (EPC 4)(NOTE: 2) (EPC 4)
(NOTE: 3) (EPC 4)
(NOTE: 4) (EPC 4)
(NOTE: 5) (EPC 4)
(NOTE: 7) (EPC 4)
(NOTE: 6)
(NOTE: 8)
47
CONTROL FUNC PAGE 1 CURVE : DISABLE HUMIDITY : ENABLE OUTSIDE TEMP: ENABLE COMMUNICATE : ENABLE LOAD DEFAULT: NO
EPC 4 EPC 3
CONTROL FUNC PAGE 2 FEEDING : ENABLE LIGHTING : ENABLE LIGHT CONT: MODULATE
EPC 4 EPC 3
SHUTTER PARAMETERS STROKE TIME: 100SEC STEP : 0.1% SHUT.FEEDB.: ENABLE
EPC-1A, EPC-3A, EPC-4A
SET VENTILATION<°C> VENT1: 0.5 VENT3: 2.5 VENT2: 1.0 VENT3: 3.0 VENT3: 1.5 VENT3: 3.5 VENT4: 2.0 VENT3: 4.0 F.HYS: 0.5 C.HYS: 1.0 FAN ANALOG: BASIC BASIC VENT:PROPORTION
(NOTE: 9)
(NOTE: 10)
SHUTTER CALIBRATION SHUTTER CLOSE: NO SHUTTER OPEN: NO
1000
(NOTE: 11)
(NOTE: 12)
6.3 EDITING A PARAMETER AND CHANGING A PAGE
1. Sample display:
2. Push button. The parameter is selected.
3. Push or buttons to edit parameter.
Parameter has changed.
4.a. Push button to save the parameter and go to the next parameter.
4.b. Push button to cancel.
SHUTTER PARAMETERS STROKE TIME: 100SEC STEP : 0.1%
SHUTTER PARAMETERS STROKE TIME: SEC STEP : 0.1%
100
SHUTTER PARAMETERS STROKE TIME: SEC STEP : 0.1%
90
SHUTTER PARAMETERS STROKE TIME: 90SEC STEP : %0.1
SHUTTER PARAMETERS STROKE TIME: 100SEC STEP : 0.1%
Changing a page
There are two ways to pass to another page;
1. Use or button if any parameter is not selected.
2. Use button if the last parameter of the page is selected.
48
TECHNICIAN
PASSWORD
0000
TECHNICIAN PASSWORD: Password value (Range: 0 - 9999).
This page is used to access to technician parameters pages.
6.4.1 TECHNICIAN PASSWORD
6.4 SCREENS PARAMETERS AND FUNCTIONS
HEATING1 PARAMETERS SENSOR : ROOM1 CONTROL :PROPORTION SET POINT: RELATIVE HYST : 1.0°C PERIOD : 40SEC OFFSET : 0.0°C PROP RAMP: 50SEC
SENSOR: Sensor type set value (Range: ROOM1, ROOM2, ROOM1&2 / Factory Setting: ROOM1). CONTROL: Control mode set value (Range: NONE, ON/OFF, PROPORTION / Factory Setting: ON/OFF). SET POINT: Set point type set value (Range: RELATIVE, ABSOLUTE / Factory Setting: RELATIVE). HYST: Hysteresis set value (Range: 0.0 °C - 9.9 °C / Factory Setting: 0.2 °C). PERIOD: Period set value (Range: 0 SEC - 999 SEC / Factory Setting: 0 SEC). OFFSET: Offset set value (Range: 0.0 °C - 9.9 °C / Factory Setting: 0.0 °C). PROP RAMP: Proportional ramp set value (Range: 0 SEC - 999 SEC / Factory Setting: 0 SEC).
6.4.2.1 HEATING1 PARAMETERS
6.4.2 HEATER1
49
HEATER 1 output can be control within HEATING1 PARAMETERS PAGE; HEATING1 PARAMETERS PAGE CONTROL parameter is used to select control mode. If the HEATING1 PARAMETERS PAGE CONTROL parameter is PROPORTION then control mode is PROPORTIONAL, if the parameter is ON/OFF then control mode is ON/OFF, if the parameter is NONE then process output will be zero. HEATING1 PARAMETERS PAGE SET POINT and HEATING2 PARAMETERS PAGE SET POINT parameters are the same.
1. ON- OFF CONTROL MODE
HEATER 1 output will be switched on as soon as the Temperature(NOTE1) becomes lower than the settemp(NOTE2) minus HEATING1 PARAMETERS PAGE HYST. HEATER 1 output will be switched off as soon as Temperature(NOTE1) is equal to or higher than settemp(NOTE2). HEATING1 PARAMETERS PAGE PERIOD parameter is used to prevent unnecessary switched on and off. HEATER 1 output will remain on or off minimum HEATING1 PARAMETERS PAGE PERIOD parameter value.
NOTE1:
If HEATING1 PARAMETERS PAGE SENSOR parameter is ROOM1; Temperature = ROOM1 sensor’s temperature, If HEATING1 PARAMETERS PAGE SENSOR parameter is ROOM2; Temperature = ROOM2 sensor’s temperature, If HEATING1 PARAMETERS PAGE SENSOR parameter is ROOM1&2; Temperature =( ROOM1 sensor’s temperature + ROOM2 sensor’s temperature) / 2.
NOTE2:
If HEATING1 PARAMETERS PAGE SET POINT is RELATIVE and if curve is enabled; Settemp= HOUSE TEMP from curve + SET VALUES PAGE TEMP.HEAT + HEATING1 PARAMETERS PAGE OFFSET, If HEATING1 PARAMETERS PAGE SET POINT is RELATIVE and if curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE + SET VALUES PAGE TEMP.HEAT + HEATING1 PARAMETERS PAGE OFFSET, If HEATING1 PARAMETERS PAGE SET POINT is ABSOLUTE; Settemp= SET VALUES PAGE TEMP.HEAT + HEATING1 PARAMETERS PAGE OFFSET.
HEATING1 PARAMETERS PAGE
HYST
ON
OFF
Settemp
(NOTE2)
Process Value [°C]
Process
Output
6.4.2.2 HEATER1 FUNCTION
2. PROPORTIONAL CONTROL MODE
If the Temperature(NOTE1) is lower than settemp(NOTE2) minus HEATING1 PARAMETERS PAGE HYST control will be continuously on. If the Temperature(NOTE1) is higher than the settemp(NOTE2) then, control will be continuously off. If the measured temperature(NOTE1) is between settemp(NOTE2) and settemp(NOTE2) minus HEATING1 PARAMETERS PAGE HYST then, control output will be on for a portion of the HEATING1 PARAMETERS PAGE PERIOD.
Process Output rises from 0% to 100% in HEATING1 PARAMETERS PAGE PROP RAMP period. This feature is called output filter. If HEATING1 PARAMETERS PAGE PROP RAMP is zero then output filter is off.
NOTE1:
If HEATING1 PARAMETERS PAGE SENSOR parameter is ROOM1; Temperature = ROOM1 sensor’s temperature, If HEATING1 PARAMETERS PAGE SENSOR parameter is ROOM2; Temperature = ROOM2 sensor’s temperature, If HEATING1 PARAMETERS PAGE SENSOR parameter is ROOM1&2; Temperature =( ROOM1 sensor’s temperature + ROOM2 sensor’s temperature) / 2.
NOTE2:
If HEATING1 PARAMETERS PAGE SET POINT is RELATIVE and if curve is enabled; Settemp= HOUSE TEMP from curve + SET VALUES PAGE TEMP.HEAT + HEATING1 PARAMETERS PAGE OFFSET, If HEATING1 PARAMETERS PAGE SET POINT is RELATIVE and if curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE + SET VALUES PAGE TEMP.HEAT + HEATING1 PARAMETERS PAGE OFFSET, If HEATING1 PARAMETERS PAGE SET POINT is ABSOLUTE; Settemp= SET VALUES PAGE TEMP.HEAT + HEATING1 PARAMETERS PAGE OFFSET.
50
HEATING1 PARAMETERS PAGE
PROP RAMP
Process
Output
0%
Time [sec]
100%
HEATING1 PARAMETERS PAGE
HYST
Process
Output
100%
50%
0%
Settemp
(NOTE2)
HEATING1 PARAMETERS PAGE
OFFSET
Process Value [°C]
HEATING2 PARAMETERS SENSOR : ROOM1 CONTROL :PROPORTION SET POINT: RELATIVE HYST : 1.0°C PERIOD : 40SEC OFFSET : 0.0°C PROP RAMP: 50SEC
SENSOR: Sensor type set value (Range: ROOM1, ROOM2, ROOM1&2 / Factory Setting: ROOM2). CONTROL: Control mode set value (Range: NONE, ON/OFF, PROPORTION / Factory Setting: ON/OFF). SET POINT: Set point type set value (Range: RELATIVE, ABSOLUTE / Factory Setting: RELATIVE). HYST: Hysteresis set value (Range: 0.0 °C - 9.9 °C / Factory Setting: 0.2 °C). PERIOD: Period set value (Range: 0 SEC - 999 SEC / Factory Setting: 0 SEC). OFFSET: Offset set value (Range: 0.0 °C - 9.9 °C / Factory Setting: 0.0 °C). PROP RAMP: Proportional ramp set value (Range: 0 SEC - 999 SEC / Factory Setting: 0 SEC).
6.4.3.1 HEATING2 PARAMETERS
6.4.3 HEATER2
51
6.4.3.2 HEATER2 FUNCTION
HEATER 2 output can be control within HEATING2 PARAMETERS PAGE; HEATING2 PARAMETERS PAGE CONTROL parameter is used to select control mode. If the HEATING2 PARAMETERS PAGE CONTROL parameter is PROPORTION then control mode is PROPORTIONAL, if the parameter is ON/OFF then control mode is ON/OFF, if the parameter is NONE then process output will be zero. HEATING1 PARAMETERS PAGE SET POINT and HEATING2 PARAMETERS PAGE SET POINT parameters are the same.
1. ON- OFF CONTROL MODE
HEATER 2 output will be switched on as soon as the Temperature(NOTE1) becomes lower than the settemp(NOTE2) minus HEATING2 PARAMETERS PAGE HYST. HEATER 2 output will be switched off as soon as Temperature(NOTE1) is equal to or higher than settemp(NOTE2). HEATING2 PARAMETERS PAGE PERIOD parameter is used to prevent unnecessary switched on and off. HEATER 2 output will remain on or off minimum HEATING2 PARAMETERS PAGE PERIOD parameter value.
NOTE1:
If HEATING2 PARAMETERS PAGE SENSOR parameter is ROOM1; Temperature = ROOM1 sensor’s temperature, If HEATING2 PARAMETERS PAGE SENSOR parameter is ROOM2; Temperature = ROOM2 sensor’s temperature, If HEATING2 PARAMETERS PAGE SENSOR parameter is ROOM1&2; Temperature =( ROOM1 sensor’s temperature + ROOM2 sensor’s temperature) / 2.
NOTE2:
If HEATING2 PARAMETERS PAGE SET POINT is RELATIVE and if curve is enabled; Settemp= HOUSE TEMP from curve + SET VALUES PAGE TEMP.HEAT + HEATING2 PARAMETERS PAGE OFFSET, If HEATING2 PARAMETERS PAGE SET POINT is RELATIVE and if curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE + SET VALUES PAGE TEMP.HEAT + HEATING2 PARAMETERS PAGE OFFSET, If HEATING2 PARAMETERS PAGE SET POINT is ABSOLUTE; Settemp= SET VALUES PAGE TEMP.HEAT + HEATING2 PARAMETERS PAGE OFFSET.
HEATING2 PARAMETERS PAGE
HYST
ON
OFF
Settemp
(NOTE2)
Process Value [°C]
Process
Output
2. PROPORTIONAL CONTROL MODE
If the Temperature(NOTE1) is lower than settemp(NOTE2) minus HEATING2 PARAMETERS PAGE HYST control will be continuously on. If the Temperature(NOTE1) is higher than the settemp(NOTE2) then, control will be continuously off. If the measured temperature(NOTE1) is between settemp(NOTE2) and settemp(NOTE2) minus HEATING2 PARAMETERS PAGE HYST then, control output will be on for a portion of the HEATING2 PARAMETERS PAGE PERIOD.
Process Output rises from 0% to 100% in HEATING2 PARAMETERS PAGE PROP RAMP period. This feature is called output filter. If HEATING2 PARAMETERS PAGE PROP RAMP is zero then output filter is off.
NOTE1:
If HEATING2 PARAMETERS PAGE SENSOR parameter is ROOM1; Temperature = ROOM1 sensor’s temperature, If HEATING2 PARAMETERS PAGE SENSOR parameter is ROOM2; Temperature = ROOM2 sensor’s temperature, If HEATING2 PARAMETERS PAGE SENSOR parameter is ROOM1&2; Temperature =( ROOM1 sensor’s temperature + ROOM2 sensor’s temperature) / 2.
NOTE2:
If HEATING2 PARAMETERS PAGE SET POINT is RELATIVE and if curve is enabled; Settemp= HOUSE TEMP from curve + SET VALUES PAGE TEMP.HEAT + HEATING2 PARAMETERS PAGE OFFSET, If HEATING2 PARAMETERS PAGE SET POINT is RELATIVE and if curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE + SET VALUES PAGE TEMP.HEAT + HEATING2 PARAMETERS PAGE OFFSET, If HEATING2 PARAMETERS PAGE SET POINT is ABSOLUTE; Settemp= SET VALUES PAGE TEMP.HEAT + HEATING2 PARAMETERS PAGE OFFSET.
52
HEATING2 PARAMETERS PAGE
PROP RAMP
Process
Output
0%
Time [sec]
100%
HEATING2 PARAMETERS PAGE
HYST
Process
Output
100%
50%
0%
Settemp
(NOTE2)
HEATING2 PARAMETERS PAGE
OFFSET
Process Value [°C]
COOLING PARAMETERS SENSOR : ROOM1 CONTROL :PROPORTION SET POINT: RELATIVE HYST : 1.0°C PERIOD : 40SEC OFFSET : 0.0°C PROP RAMP: 50SEC
SENSOR: Sensor type set value (Range: ROOM1, ROOM2, ROOM1&2 / Factory Setting: ROOM1&2). CONTROL: Control mode set value (Range: NONE, ON/OFF, PROPORTION / Factory Setting: ON/OFF). SET POINT: Set point type set value (Range: RELATIVE, ABSOLUTE / Factory Setting: RELATIVE). HYST: Hysteresis set value (Range: 0.0 °C - 9.9 °C / Factory Setting: 0.3 °C). PERIOD: Period set value (Range: 0 SEC - 999 SEC / Factory Setting: 0 SEC). OFFSET: Offset set value (Range: 0.0 °C - 9.9 °C / Factory Setting: 0.0 °C). PROP RAMP: Proportional ramp set value (Range: 0 SEC - 999 SEC / Factory Setting: 0 SEC).
6.4.4.1 COOLING PARAMETERS
6.4.4 COOLING
53
6.4.4.2 COOLING FUNCTION
COOLING output can be control within COOLING PARAMETERS PAGE;
COOLING PARAMETERS PAGE CONTROL parameter is used to select control mode. If the COOLING PARAMETERS PAGE CONTROL parameter is PROPORTION then control mode is PROPORTIONAL, if the parameter is ON/OFF then control mode is ON/OFF, if the parameter is NONE then process output will be zero.
1. ON- OFF CONTROL MODE
COOLING output will be switched on as soon as the Temperature(NOTE1) becomes higher than the settemp(NOTE2) plus COOLING PARAMETERS PAGE HYST. COOLING output will be switched off as soon as Temperature(NOTE1) is equal to or lower than settemp(NOTE2). COOLING PARAMETERS PAGE PERIOD parameter is used to prevent unnecessary switched on and off. COOLING output will remain on or off minimum COOLING PARAMETERS PAGE PERIOD parameter value.
NOTE1:
If COOLING PARAMETERS PAGE SENSOR parameter is ROOM1; Temperature = ROOM1 sensor’s temperature, If COOLING PARAMETERS PAGE SENSOR parameter is ROOM2; Temperature = ROOM2 sensor’s temperature, If COOLING PARAMETERS PAGE SENSOR parameter is ROOM1&2; Temperature =( ROOM1 sensor’s temperature + ROOM2 sensor’s temperature) / 2.
NOTE2:
If COOLING PARAMETERS PAGE SET POINT is RELATIVE and if curve is enabled; Settemp= HOUSE TEMP from curve + SET VALUES PAGE TEMP.COOL + COOLING PARAMETERS PAGE OFFSET, If COOLING PARAMETERS PAGE SET POINT is RELATIVE and if curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE + SET VALUES PAGE TEMP.COOL + COOLING PARAMETERS PAGE OFFSET, If COOLING PARAMETERS PAGE SET POINT is ABSOLUTE; Settemp= SET VALUES PAGE TEMP.COOL + COOLING PARAMETERS PAGE OFFSET.
COOLING PARAMETERS PAGE
HYST
ON
OFF
Settemp
(NOTE2)
Process Value [°C]
Process
Output
2. PROPORTIONAL CONTROL MODE
If the Temperature(NOTE1) is higher than settemp(NOTE2) plus COOLING PARAMETERS PAGE HYST control will be continuously on. If the Temperature(NOTE1) is lower than the settemp(NOTE2) then, control will be continuously off. If the measured temperature(NOTE1) is between settemp(NOTE2) and settemp(NOTE2) plus COOLING PARAMETERS PAGE HYST then, control output will be on for a portion of the COOLING PARAMETERS PAGE PERIOD.
Process Output rises from 0% to 100% in COOLING PARAMETERS PAGE PROP RAMP period. This feature is called output filter. If COOLING PARAMETERS PAGE PROP RAMP is zero then output filter is off.
NOTE1:
If COOLING PARAMETERS PAGE SENSOR parameter is ROOM1; Temperature = ROOM1 sensor’s temperature, If COOLING PARAMETERS PAGE SENSOR parameter is ROOM2; Temperature = ROOM2 sensor’s temperature, If COOLING PARAMETERS PAGE SENSOR parameter is ROOM1&2; Temperature =( ROOM1 sensor’s temperature + ROOM2 sensor’s temperature) / 2.
NOTE2:
If COOLING PARAMETERS PAGE SET POINT is RELATIVE and if curve is enabled; Settemp= HOUSE TEMP from curve + SET VALUES PAGE TEMP.COOL + COOLING PARAMETERS PAGE OFFSET, If COOLING PARAMETERS PAGE SET POINT is RELATIVE and if curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE + SET VALUES PAGE TEMP.COOL + COOLING PARAMETERS PAGE OFFSET, If COOLING PARAMETERS PAGE SET POINT is ABSOLUTE; Settemp= SET VALUES PAGE TEMP.COOL + COOLING PARAMETERS PAGE OFFSET.
COOLING PARAMETERS PAGE
PROP RAMP
Process
Output
0%
Time [sec]
100%
54
COOLING PARAMETERS PAGE
HYST
Process
Output
100%
50%
0%
Settemp
(NOTE2)
COOLING PARAMETERS PAGE
OFFSET
Process Value [°C]
HUMIDITY PARAMETERS CONTROL :PROPORTION HYST : 10% PERIOD : 40SEC OFFSET : 0% PROP RAMP: 50SEC ALGORITHM:HUMIDIFICI
CONTROL: Control mode set value (Range: NONE, ON/OFF, PROPORTION / Factory Setting: PROPORTION) HYST: Hysteresis set value (Range: 0% - 99% / Factory Setting: 5%) PERIOD: Period set value (Range: 0 SEC - 999 SEC / Factory Setting: 0 SEC) OFFSET: Offset set value (Range: 0% - 99% / Factory Setting: 0%) PROP RAMP: Proportional ramp set value (Range: 0 SEC - 999 SEC / Factory Setting: 0 SEC) ALGORITHM: Humidity control algorithm. (Humiditification or Drying) (Range: HUMIDITI - DRYING / Factory Setting: HUMIDITI)
6.4.5.1 HUMIDITY PARAMETERS
6.4.5 HUMIDITY
55
6.4.5.2 HUMIDITY FUNCTION
HUMIDITY PARAMETERS PAGE
HYST
ON
OFF
Set humidity
(NOTE1)
Process Value [RH%]
Process
Output
HUMIDITY output can be control within HUMIDITY PARAMETERS PAGE; HUMIDITY PARAMETERS PAGE CONTROL parameter is used to select control mode. If the HUMIDITY PARAMETERS PAGE CONTROL parameter is PROPORTION then control mode is PROPORTIONAL, if the parameter is ON/OFF then control mode is ON/OFF, if the parameter is NONE then process output will be zero.
1. ON- OFF CONTROL MODE
HUMIDITY output will be switched on as soon as the humidity becomes lower than the Set humidity(NOTE1) minus HUMIDITY PARAMETERS PAGE HYST. HUMIDITY output will be switched off as soon as humidity is equal to or higher than Set humidity(NOTE1). HUMIDITY PARAMETERS PAGE PERIOD parameter is used to prevent unnecessary switched on and off. HUMIDITY output will remain on or off minimum HUMIDITY
PARAMETERS PAGE PERIOD parameter value.
NOTE1:
if curve is enabled;Set humidity = HUMIDITY from curve + HUMIDITY PARAMETERS PAGE OFFSET; if curve is disabled;Set humidity = SET VALUES PAGE HUMIDITY + HUMIDITY PARAMETERS PAGE OFFSET;
2. PROPORTIONAL CONTROL MODE
If ALGORITHM parameter is selected as HUMIDIFI: If the humidity is lower than Set humidity(NOTE1) minus HUMIDITY PARAMETERS PAGE HYST control will be continuously on. If the humidity is higher than the Set humidity(NOTE1) then, control will be continuously off. If the measured humidity is between Set humidity(NOTE1) and Set humidity(NOTE1) minus
HUMIDITY PARAMETERS PAGE HYST then, control output will be on for a portion of the HUMIDITY PARAMETERS PAGE PERIOD.
If ALGORITHM parameter is selected as DRIYING If the humidity is higher than Set humidity(NOTE1) minus HUMIDITY PARAMETERS PAGE HYST control will be continuously on. If the humidity is lower than the Set humidity(NOTE1) then, control will be continuously off. If the measured humidity is between Set humidity(NOTE1) and Set humidity(NOTE1) minus
HUMIDITY PARAMETERS PAGE HYST then, control output will be on for a portion of the HUMIDITY PARAMETERS PAGE PERIOD.
Process Output rises from 0% to 100% in HUMIDITY PARAMETERS PAGE PROP RAMP period. This feature is called output Filter. If HUMIDITY PARAMETERS PAGE PROP RAMP is zero then output filter is off.
NOTE1:
if curve is enabled;Set humidity = HUMIDITY from curve + HUMIDITY PARAMETERS PAGE OFFSET; if curve is disabled;Set humidity = SET VALUES PAGE HUMIDITY +
HUMIDITY PARAMETERS PAGE OFFSET;
56
HUMIDITY PARAMETERS PAGE
PROP RAMP
Process
Output
0%
Time [sec]
100%
HUMIDITY PARAMETERS PAGE
HYST
Process
Output
100%
50%
0%
Set humidity
(NOTE1)
HUMIDITY PARAMETERS PAGE
OFFSET
Process Value [RH%]
VENTIL. PARAMETERS SHIFTING : ON SHIFT&PRP PER: 10MIN FAN MIN TIME : 5SEC PRPRTN RAMP : 50SEC SENSOR : ROOM1 FAN CONT.: BASIC&TUN. FAN COUNT BAS:1 TOT:8
SHIFTING: Shift enabled or disabled or without chimney fans. (Range: OFF - CMN / Factory Setting: ON). SHIFT&PRP PER: Common set period value for proportion and shifting
(Range: 1 MIN - 100 MIN / Factory Setting: 2 MIN).
FAN MIN TIME: Mýnýmum on time & Minimum off time (Range: 0 SEC - 100 SEC / Factory Setting: 5 SEC). PRPRTN RAMP: Proportion ramp set value (Range: 0 SEC - 999 SEC / Factory Setting: 0 SEC). SENSOR: Sensor selection set value
(Range: ROOM1, ROOM2, ROOM1&2 / Factory Setting: ROOM1&2).
FAN CONT: Ventilation type selection. (Range: TUNNEL, BASIC&TUN. / Factory Setting:TUNNEL) FAN COUNT BAS: Fan count that run at minimum ventilation. (Range: 1 - 7 / Factory Setting: 1) FAN COUNT TOT: Total fan count. (Range: 1 - 8 / Factory Setting: 8)
6.4.6.1 VENTILATION PARAMETERS
SET VENTILATION<°C> VENT1: 0.5 VENT5: 2.5 VENT2: 1.0 VENT6: 3.0 VENT3: 1.5 VENT7: 3.5 VENT4: 2.0 VENT8: 4.0 F.HYS: 0.2 WAIT : 1 FAN ANALOG: BASIC VENT ALG. :PROPORTION
VENT1: Ventilation stage 1 set value (Range: 0.0 °C - 50.0 °C / Factory Setting: 0.5 °C). VENT2: Ventilation stage 2 set value (Range: 0.0 °C - 50.0 °C / Factory Setting: 1.0 °C). VENT3: Ventilation stage 3 set value (Range: 0.0 °C - 50.0 °C / Factory Setting: 1.5 °C). VENT4: Ventilation stage 4 set value (Range: 0.0 °C - 50.0 °C / Factory Setting: 2.0 °C). VENT5: Ventilation stage 5 set value (Range: 0.0 °C - 50.0 °C / Factory Setting: 2.5 °C). VENT6: Ventilation stage 6 set value (Range: 0.0 °C - 50.0 °C / Factory Setting: 3.0 °C). VENT7: Ventilation stage 7 set value (Range: 0.0 °C - 50.0 °C / Factory Setting: 3.5 °C). VENT8: Ventilation stage 8 set value (Range: 0.0 °C - 50.0 °C / Factory Setting: 4.0 °C). F.HYS: Fans hysterisis value(Range: 0.0 °C - 5.0 °C / Factory Setting: 0.2 °C). WAIT: Delay time before fans (Range: 0.0 °C - 200 Sec. / Factory Setting: 1 Sec). FAN ANALOG: Fan Analog output operation section
(Range: TUNNEL, BASIC&TUN. / Factory Setting:TUNNEL). VENT ALG.: Working algorithm of fans. (Range: ON/OFF, PROPORTION / Factory Setting:ON/OFF).
6.4.6.2 SET VENTILATION <°C>°C>
6.4.6 VENTILATION
57
6.4.6.3 VENTILATION FUNCTION(TUNNEL)
There are two different control outputs.
1. Fan linear ventilation control(TUNNEL VENT):
There are eight fan stages to control fresh air level. It can be selected how much fans will work, by FAN COUNT : TOP parameter.
Ventilation notation: x%y x: active fan number, y: output(%)
Settemp
(NOTE2)
Process
Output[%]
Min. Vent.
(NOTE2)
Settemp
(NOTE2)
Process Value [°C]
Fans
Analog
Output[V]
A (NOTE3)
NOTE1:
If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM1; Temperature = ROOM1 sensor’s temp. If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM2;Temperature = ROOM2 sensor’s temp. If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM1&2; Temperature =( ROOM1 sensor’s temperature + ROOM2 sensor’s temperature) / 2.
NOTE2:
If curve is enabled; Settemp= HOUSE TEMP from curve, Min.Vent= MIN. VENT from curve, Max.Vent=MAX. VENT from curve. If curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE, Min.Vent= SET VALUES PAGE VENT. MIN, Max.Vent= SET VALUES PAGE VENT. MAX.
NOTE3:
A = Settemp(NOTE2)+ SET VENTILATION PAGE VENTILATION1. B = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION2. C = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION3. D = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION4. E = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION5. F = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION6. G = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION7. H = Settemp(NOTE2) + SET VENTILATION PAGE VENTILATION8.
2. Fan Analog ventilation control:
Fan analog ventilation control simultaneously works with fan linear ventilation control. (TUNNEL VENT)
10.0
B (NOTE3)
C (NOTE3)
D (NOTE3)
E (NOTE3)
F (NOTE3)
G (NOTE3)
H (NOTE3)
Process Value [°C]
Min. Vent.
100
Number of always active fans
Process Value [°C]
N
F A 2
FA
N
3
F
A
4
N
N
F
A 5
FA
N
6
N
F A 7
FA 8
N
F
A
N1
8(8%00) 7(7%00) 6(6%00) 5(5%00)
3(3%00)
4(4%00)
2(2%00) 1(1%00)
58
There are two different control outputs.
1. Fan ventilation control(BASIC&TUNNEL VENT):
Basic ventilation fan count is selectable by BASIC FAN COUNT parameters. Remaining fans are tunnel fans. At this ventilation type, basic fans work only at minimum ventilation and tunnel fans work only at apart from minimum ventilation. If calculated ventilation value is less than Min. Vent then output will be equal to Min. Vent value. If calculated ventilation value is higher than Max Vent then output will be equal to Max Vent value.
FAN1
Min. Vent.
(NOTE1)
House [°C]
FAN1
59
6.4.6.4 VENTILATION FUNCTION(BASIC&TUNNEL)
F.HYS
FANS
Min. Vent.
(NOTE1)
FAN1
A (NOTE2)
B (NOTE2)
C (NOTE2)
VENTILATION ALGORITHM: ON/OFF VENTILATION ALGORITHM: PROPORTIONAL
A (NOTE2)
B (NOTE2)
C (NOTE2)
D (NOTE2)
E (NOTE2)
F (NOTE2)
G (NOTE2)
H (NOTE2)
Settemp
(NOTE1)
Settemp
(NOTE1)
NOTE1:
If curve is enabled; Settemp= HOUSE TEMP from curve, Min.Vent= MIN. VENT from curve, Max.Vent=MAX. VENT from curve. If curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE, Min.Vent= SET VALUES PAGE VENT. MIN, Max.Vent= SET VALUES PAGE VENT. MAX.
NOTE2:
A = Settemp(NOTE2) + SET VENTILATION PAGE VENT1. B = Settemp(NOTE2) + SET VENTILATION PAGE VENT2. C = Settemp(NOTE2) + SET VENTILATION PAGE VENT3. D = Settemp(NOTE2) + SET VENTILATION PAGE VENT4. E = Settemp(NOTE2) + SET VENTILATION PAGE VENT5. F = Settemp(NOTE2) + SET VENTILATION PAGE VENT6. G = Settemp(NOTE2) + SET VENTILATION PAGE VENT7. H = Settemp(NOTE2) + SET VENTILATION PAGE VENT8.
C.HYS
OFF
House [°C]
OFF
C.HYS
FANS
FAN3
FAN4
FAN5
FAN6
FAN7
FAN8
C.HYS
F.HYS
F.HYS
F.HYS
F.HYS
F.HYS
FAN2
FAN2
FAN ANALOG
OUTPUT(VZ)
Min. Vent.
(NOTE1)
House [°C]
5.0
F.HYS
Min. Vent.
(NOTE1)
5.0
C.HYS
0.0
House [°C]
0.0
C.HYS
10.0
10.0
FAN ANALOG
OUTPUT(VZ)
A (NOTE2)
B (NOTE2)
C (NOTE2)
Settemp
(NOTE1)
SET VENTILATION PAGE FAN ANALOG: BASIC
A (NOTE2)
B (NOTE2)
C (NOTE2)
Settemp
(NOTE1)
SET VENTILATION PAGE FAN ANALOG: BASIC
A (NOTE2)
B (NOTE2)
C (NOTE2)
Settemp
(NOTE1)
6.4.6.4 VENTILATION FUNCTION(BASIC&TUNNEL)
2. Fan Analog ventilation control:
Fan analog ventilation control simultaneously works with fan linear ventilation control. (BASIC&TUNNEL VENT)
If SET VENTILATION PAGE FAN ANALOG parameter is TUNNEL
House [°C]
Fans
Analog
Output[V]
10.0
C.HYS
0.0
F.HYS
F.HYS
F.HYS
F.HYS
F.HYS
If SET VENTILATION PAGE FAN ANALOG parameter is BASIC&TUN. and
SET VENTILATION PAGE BASIC VENT:ON/OFF
House [°C]
Fans
Analog
Output[V]
10.0
0.0
1.25
2.50
3.75
5.00
6.25
7.50
8.75
1.66
3.32
5.00
6.66
8.32
If SET VENTILATION PAGE FAN ANALOG parameter is BASIC&TUN. and
SET VENTILATION PAGE BASIC VENT :PROPORTION
House [°C]
Fans
Analog
Output[V]
10.0
0.0
1.25
2.50
3.75
5.00
6.25
7.50
8.75
Settemp
(NOTE1)
A (NOTE2)
B (NOTE2)
C (NOTE2)
D (NOTE2)
E (NOTE2)
F (NOTE2)
G (NOTE2)
H (NOTE2)
MIN.VENT
MIN.VENT
NOTE1:
If curve is enabled; Settemp= HOUSE TEMP from curve, Min.Vent= MIN. VENT from curve, Max.Vent=MAX. VENT from curve. If curve is disabled; Settemp= SET VALUES PAGE TEMP.HOUSE, Min.Vent= SET VALUES PAGE VENT. MIN, Max.Vent= SET VALUES PAGE VENT. MAX.
NOTE2:
A = Settemp(NOTE1) + SET VENTILATION PAGE VENT1. B = Settemp(NOTE1) + SET VENTILATION PAGE VENT2. C = Settemp(NOTE1) + SET VENTILATION PAGE VENT3. D = Settemp(NOTE1) + SET VENTILATION PAGE VENT4. E = Settemp(NOTE1) + SET VENTILATION PAGE VENT5. F = Settemp(NOTE1) + SET VENTILATION PAGE VENT6. G = Settemp(NOTE1) + SET VENTILATION PAGE VENT7. H = Settemp(NOTE1) + SET VENTILATION PAGE VENT8.
60
6.4.6.5 TECHNICIAN VENTILATION PARAMETERS
1. Shifting fans (FAN CONT.:TUNNEL):
When VENTIL. PARAMETERS PAGE SHIFT&PRP PER parameter is expired, working fan number is shifted right once. For example; 6. and 7. Fans are active and 8. Fan operates proportional in Figure1
3. Delay between fans Two fans can not be switched on at the same time. Second fan switched on after VENTIL. PARAMETERS PAGE DLY BTWN FANS time is over.
VENTIL. PARAMETERS PAGE
PRPRTN RAMP
Process
Output
0%
Time [sec]
100%
4. Output Filter
Process Output rises from 0% to 100% in VENTIL. PARAMETERS PAGE PRPRTN RAMP period. This feature is called Output Filter.
4. Sensor Selection
If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM1; Temperature = ROOM1 sensor’s temperature If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM2; Temperature = ROOM2 sensor’s temperature If VENTIL. PARAMETERS PAGE SENSOR parameter is ROOM1&2; Temperature =( ROOM1 sensor’s temperature + ROOM2 sensor’s temperature) / 2
Figure1
Figure2
When VENTIL. PARAMETERS PAGE SHIFTING&PRP PER parameter is expired, 7. and 8. Fans are active and first fan operates proportional as in Figure2
If VENTIL. PARAMETERS PAGE SHIFTING parameter is OFF then shifting feature is disabled. If SHIFTING parameter is CMN then minimum ventilation fans that selected by FAN COUNT BAS parameters, never shift. Shifting operates on another fans except theese minimum vent fans.
VENTIL. PARAMETERS SHIFTING : ON SHIFT&PRP PER: 2MIN DLY BTWN FANS: 5SEC PRPRTN RAMP : 50SEC SENSOR : ROOM1 FAN CONT.: TUNNEL FAN COUNT BAS:1 TOT:8
61
2. Shifting fans(FAN CONT.:BASIC&TUN.):
When VENTIL. PARAMETERS PAGE SHIFT&PRP PER parameter is expired, working fan number is shifted right once. Only tunnel fans are shifting on each other. For example; 3. and 4. Fans are active in Figure3
Figure3
Figure4
When VENTIL. PARAMETERS PAGE SHIFTING&PRP PER parameter is expired, 4. and 5. Fans are active in Figure4
If VENTIL. PARAMETERS PAGE SHIFTING parameter is OFF then shifting feature is disabled.
ROOM1 OFFSET: Room1 Temperature Offset set value (Range: -10.0 °C - 10.0 °C / Factory Setting: 0.0 °C). ROOM2 OFFSET: Room2 Temperature Offset set value (Range: -10.0 °C - 10.0 °C / Factory Setting: 0.0 °C). OUTSIDE OFFSET: Outside Temperature Offset set value (Range: -10.0 °C - 10.0 °C / Factory Setting: 0.0 °C). HUMIDITY OFFSET: Humidity Offset set value (Range: -20% - 20% / Factory Setting: 0%).
SENS MINMAX: Sensor selection for MAX & MIN VALUES 1 PAGE (Range: ROOM1 - ROOM2- ROOM1&2 / Factory Setting: ROOM1&2).
MAX & MIN VALUES 1 PAGE shows the saved minimum and maximum temperature values of last 24 hours that was token from
ROOM1 or ROOM2 or (ROOM1 + ROOM2)/2
The selection depends on TEMPERATURE SETTINGS PAGE SENS MINMAX parameter.
SENS OPENING: Sensor selection for PROCESS VALUES PAGE HOUSE parameter (Range: ROOM1 - ROOM2- ROOM1&2 / Factory Setting: ROOM1&2).
PROCESS VALUES PAGE HOUSE parameter shows temperature value from ROOM1 or ROOM2 or (ROOM1 + ROOM2)/2
The selection depends on TEMPERATURE SETTINGS PAGE SENS OPENING parameter.
TEMPERATURE SETTINGS ROOM1 OFFSET: 0.0°C ROOM2 OFFSET: 0.0°C OUT. OFFSET : 0.0°C HUM. OFFSET : 0% SENS MINMAX : ROOM1&2 SENS OPENING: ROOM1&2
6.4.8 TEMPERATURE SETTINGS
62
6.4.7 SHUTTER CALIBRATION(EPC1A,EPC3A,EPC4A)
SHUTTER CALIBRATION SHUTTER CLOSE: NO SHUTTER OPEN: NO
1000
If SHUTTER PARAMETERS PAGE SHUT.FEEDB. parameter is ENABLE this page is shown. When calibrating shutter firstly push MAN/AUTO button to manually control the shutter. Press DOWN button to close the shutter. When the shutter fully closed select SHUTTER CLOSE parameter and change this parameter to YES. Wait for the parameter value to turn NO. After this press UP button to open the shutter. When the shutter fully opened select SHUTTER OPEN parameter and change this parameter to YES. Wait for the parameter value to turn NO and 1000 value seen on the screen.
SHUTTER PARAMETERS STROKE TIME: 100SEC STEP : 0.1% SHUT.FEEDB.: DISABLE
STROKE TIME: Stroke time set value (Range: 5 SEC- 600 SEC / Factory Setting: 100 SEC) STEP: Stroke time step set value (Range: 0.1% - 5.0% / Factory Setting: 0.1% ) SHUT.FEEDB.: Shutter feedback function(disable,enable)
CURVE: Curve working activation parameter (Range: DISABLE, ENABLE / Factory Setting: DISABLE). HUMIDITY: Humidity input activation parameter (Range: DISABLE, ENABLE / Factory Setting: ENABLE). OUTSIDE TEMP: Outside sensor activation parameter (Range: DISABLE, ENABLE / Factory Setting: ENABLE). COMMUNICATE: Modbus communication activation parameter (Range: DISABLE, ENABLE / Factory Setting: ENABLE). LOAD DEFAULT: Factory default loading selection parameter (Range: NO, YES / Factory Setting: NO).
To load factory default parameters; Change CONTROL FUNC PAGE 1 PAGE LOAD DEFAULT parameter to YES and change page to the other page, EPC will change parameters to factory defaults and EPC will change CONTROL FUNC PAGE 1 PAGE LOAD DEFAULT parameter to NO.
WATER CONSUM: Water consumption pages & features activation parameter (Range: DISABLE, ENABLE / Factory Setting: ENABLE). (EPC 4 FEATURE) ELECT CONSUM: Electricity consumption pages & features activation parameter (Range: DISABLE, ENABLE / Factory Setting: ENABLE). (EPC 4 FEATURE)
CONTROL FUNC PAGE 1 CURVE : DISABLE HUMIDITY : ENABLE OUTSIDE TEMP: ENABLE COMMUNICATE : ENABLE LOAD DEFAULT: NO WATER CONSUM: ENABLE ELECT CONSUM: ENABLE
6.4.9 CONTROL FUNC PAGE 1
FEEDING: Feeding pages & features activation parameter
(Range: DISABLE, ENABLE / Factory Setting: DISABLE). INPUT 1: Weigh1 activation or assigment this input as CO2 (EPC4 FEATURE) parameter (Range: DISABLE, NH3 / Factory Setting: DISABLE). INPUT 2: Weigh2 activation or assigment this input as CO2 (EPC4 FEATURE) parameter (Range: DISABLE, CO2 / Factory Setting: DISABLE). INPUT 3: Weigh3 pages & features activation parameter (Range: DISABLE, ENABLE / Factory Setting: DISABLE). (EPC 4 FEATURE)(Not in EPC 4A) ALARM 1: Assignment Alarm 1 input to general alarm or power cut. (Range: ALARM - PWR / Factory Setting: ALARM). LIGHTING: Lighting pages & features activation parameter (Range: DISABLE, ENABLE / Factory Setting: DISABLE). LIGHT CONT: Lighting working mode selection parameter (Range: ON/OFF, MODULATE / Factory Setting: MODULATE).
CONTROL FUNC PAGE 2 FEEDING : ENABLE INPUT 1 : WEIG INPUT 2 : WEIG INPUT 3 : WEIG ALARM 1 : ALARM LIGHTING : ENABLE LIGHT CONT: MODULATE
6.4.10 CONTROL FUNC PAGE 2
63
CONTROL FUNC PAGE 1 CURVE : DISABLE HUMIDITY : ENABLE OUTSIDE TEMP: ENABLE COMMUNICATE : ENABLE LOAD DEFAULT: NO
EPC 4 EPC 3
EPC 4 EPC 3
CONTROL FUNC PAGE 2 FEEDING : ENABLE INPUT 1 : ENABLE INPUT 2 : ENABLE ALARM 1 : PWR LIGHTING : ENABLE LIGHT CONT: MODULATE
6.4.11 LIGHTING FUNCTION (EPC 3&4)
ON
OFF
Time[HR:MN]
02:00
04:00 07:00
01:00
08:30
01:30
16:00 21:0000:00
02:00
If CONTROL FUNC PAGE 2 PAGE LIGHT CONT parameter is equal to ON/OFF then working princible is explained below;
- First of all EPC has to capture START TIME to run a step.
- Lighting relay output will be on between START TIME and START TIME plus DURATION TIME. Otherwise lighting relay output will be off.
- OUT% column is not in used.
- Lighting analog output is allways zero Example;
Working without curve:
Next page parameters are used :
Working with curve:
- SET VALUES PAGE DAY < CURVE STEP2 DAY, LIGHTING PARAMETERS PAGE step1 parameters are used,
- CURVE STEP2 DAY<=SET VALUES PAGE DAY < CURVE STEP3 DAY, LIGHTING PARAMETERS PAGE step2 parameters are used,
- CURVE STEP3 DAY<=SET VALUES PAGE DAY < CURVE STEP4 DAY, LIGHTING PARAMETERS PAGE step3 parameters are used,
- CURVE STEP4 DAY<=SET VALUES PAGE DAY < CURVE STEP5 DAY, LIGHTING PARAMETERS PAGE step4 parameters are used,
- CURVE STEP5 DAY<=SET VALUES PAGE DAY < CURVE STEP6 DAY, LIGHTING PARAMETERS PAGE step5 parameters are used,
- CURVE STEP6 DAY<=SET VALUES PAGE DAY < CURVE STEP7 DAY, LIGHTING PARAMETERS PAGE step6 parameters are used,
- CURVE STEP7 DAY<=SET VALUES PAGE DAY < CURVE STEP8 DAY, LIGHTING PARAMETERS PAGE step7 parameters are used,
- CURVE STEP8 DAY<=SET VALUES PAGE DAY < CURVE STEP9 DAY, LIGHTING PARAMETERS PAGE step8 parameters are used,
- CURVE STEP9 DAY<=SET VALUES PAGE DAY < CURVE STEP10 DAY, LIGHTING PARAMETERS PAGE step9 parameters are used,
- CURVE STEP10 DAY<=SET VALUES PAGE DAY, LIGHTING PARAMETERS PAGE step10 parameters are used.
Process
Output
CONTROL FUNC PAGE 2 FEEDING : ENABLE CHICKS W1 : ENABLE CHICKS W2 : ENABLE CHICKS W3 : ENABLE LIGHTING : ENABLE LIGHT CONT: ON/OFF
Start time column
Duration column
if LIGHT CONT parameter is ON/OFF, OUT% does not matter.
LIGHTING PARAMETERS
L1: 04:00 02:00 20% L2: 07:00 01:00 40% L3: 08:30 01:30 50% L4: 16:00 00:00 0% L5: 21:00 02:00 100%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS CURVE STEP X
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
LIGHTING PARAMETERS
L1: 04:00 02:00 20% L2: 07:00 01:00 40% L3: 08:30 01:30 50% L4: 16:00 00:00 0% L5: 21:00 02:00 100%
HR:MN HR:MN OUT%
6.4.11.1 LIGHTING (ON/OFF MODE) FUNCTION
64
If CONTROL FUNC PAGE 2 PAGE LIGHT CONT parameter is equal to MODULATE then working princible is explained below;
- First of all EPC has to capture START TIME to run a step.
- If OUT% is 0 then relay output is OFF otherwise relay output is ON See the example;
Working without curve:
Next page parameters are used :
Working with curve:
- SET VALUES PAGE DAY < CURVE STEP2 DAY, LIGHTING PARAMETERS PAGE step1 parameters are used,
- CURVE STEP2 DAY<=SET VALUES PAGE DAY < CURVE STEP3 DAY, LIGHTING PARAMETERS PAGE step2 parameters are used,
- CURVE STEP3 DAY<=SET VALUES PAGE DAY < CURVE STEP4 DAY, LIGHTING PARAMETERS PAGE step3 parameters are used,
- CURVE STEP4 DAY<=SET VALUES PAGE DAY < CURVE STEP5 DAY, LIGHTING PARAMETERS PAGE step4 parameters are used,
- CURVE STEP5 DAY<=SET VALUES PAGE DAY < CURVE STEP6 DAY, LIGHTING PARAMETERS PAGE step5 parameters are used,
- CURVE STEP6 DAY<=SET VALUES PAGE DAY < CURVE STEP7 DAY, LIGHTING PARAMETERS PAGE step6 parameters are used,
- CURVE STEP7 DAY<=SET VALUES PAGE DAY < CURVE STEP8 DAY, LIGHTING PARAMETERS PAGE step7 parameters are used,
- CURVE STEP8 DAY<=SET VALUES PAGE DAY < CURVE STEP9 DAY, LIGHTING PARAMETERS PAGE step8 parameters are used,
- CURVE STEP9 DAY<=SET VALUES PAGE DAY < CURVE STEP10 DAY, LIGHTING PARAMETERS PAGE step9 parameters are used,
- CURVE STEP10 DAY<=SET VALUES PAGE DAY, LIGHTING PARAMETERS PAGE step10 parameters are used.
LIGHTING PARAMETERS CURVE STEP X
L1: 00:00 00:00 0% L2: 00:00 00:00 0% L3: 00:00 00:00 0% L4: 00:00 00:00 0% L5: 00:00 00:00 0%
HR:MN HR:MN OUT%
100
0
Time[HR:MN]
02:00
01:00
01:30
02:00
20
40
50
LIGHTING ANALOG
OUTPUT[%]
04:00 07:00 08:30 16:00 21:0000:00
CONTROL FUNC PAGE 2 FEEDING : ENABLE CHICKS W1 : ENABLE CHICKS W2 : ENABLE CHICKS W3 : ENABLE LIGHTING : ENABLE LIGHT CONT: MODULATE
LIGHTING PARAMETERS
L1: 04:00 02:00 20% L2: 07:00 01:00 40% L3: 08:30 01:30 50% L4: 16:00 00:00 0% L5: 21:00 02:00 100%
HR:MN HR:MN OUT%
2.0 Vdc & relay is on
4.0 Vdc & relay is on
5.0 Vdc & relay is on
0.0 Vdc & relay is off
10.0 Vdc & relay is on
Start time column
Duration column
LIGHTING PARAMETERS
L1: 04:00 02:00 20% L2: 07:00 01:00 40% L3: 08:30 01:30 50% L4: 16:00 00:00 0% L5: 21:00 02:00 100%
HR:MN HR:MN OUT%
ON
OFF
Time[HR:MN]
02:00
04:00 07:00
01:00
08:30
01:30
16:00 21:0000:00
02:00
Relay
Output
6.4.11.2 LIGHTING (MODULATE MODE) FUNCTION (EPC 3&4)
65
UNIT: WEIGHT or TIME mode is used for feeding control depend on this parameter selection (Range: WEIGHT- TIME / Factory Setting: WEIGHT). FEED PER MIN: Feed consumption per minute (using when UNIT parameter is selected TIME) (Range: 0.0 KG - 100.0 KG / Factory Setting: 1.0 KG). TARE: Tare function (Range: NO - YES / Factory Setting: NO). REF WEIGHT: Reference weight parameter for make weight adjustment (Range: 0 KG - 30000 KG / Factory Setting: 250 KG). TAKE REF WEIGHT: Reading Weigh is equal to REF WEIGHT (Range: NO - YES / Factory Setting: NO). FEED OFFSET: Feeding amount step values are changed as feed offset value (Range: -100 KG - 100 KG / Factory Setting: 0 KG).
FEED UNIT PARAMETERS
UNIT : TIME FEED PER MIN: 6.0KG TARE : NO REF WEIGHT : 250KG TAKE REF WEIGHT: NO FEED OFFSET : 0KG
6.4.12.1 FEED UNIT PARAMETERS
6.4.12 FEEDING (EPC 3&4)
66
FEED UNIT PARAMETERS
UNIT : WEIGHT FEED PER MIN: 1.0KG TARE : NO REF WEIGHT : KG TAKE REF WEIGHT: NO FEED OFFSET : 0KG
500
FEED UNIT PARAMETERS
UNIT : WEIGHT FEED PER MIN: 1.0KG TARE : REF WEIGHT : 250KG TAKE REF WEIGHT: NO FEED OFFSET : 0KG
NO
FEED UNIT PARAMETERS
UNIT : WEIGHT FEED PER MIN: 1.0KG TARE : NO REF WEIGHT : 500KG TAKE REF WEIGHT: FEED OFFSET : 0KG
NO
FEED UNIT PARAMETERS
UNIT : WEIGHT FEED PER MIN: 1.0KG TARE : REF WEIGHT : 250KG TAKE REF WEIGHT: NO FEED OFFSET : 0KG
YES
FEED UNIT PARAMETERS
UNIT : WEIGHT FEED PER MIN: 1.0KG TARE : NO REF WEIGHT : 500KG TAKE REF WEIGHT: FEED OFFSET : 0KG
YES
FEED UNIT PARAMETERS
UNIT : WEIGHT FEED PER MIN: 1.0KG TARE : NO REF WEIGHT : 500KG TAKE REF WEIGHT: FEED OFFSET : 0KG
NO
6.4.12.2 FEEDING WEIGH ADJUSTMENT (EPC 3&4)
1. Feeding adjustment steps:
FEED UNIT PARAMETERS page’s have three parameters are used to make feeding adjustment.
1. Take tare (TARE parameter),
2. Enter reference weight (REF WEIGHT parameter),
3. Take reference weight (TAKE REF WEIGHT parameter).
Example;
Access to FEED UNIT PARAMETERS page.
Push three times button to access to TARE parameter
While the silo is empty push button to switch parameter’s value to
YES.
Almost 3 seconds later read weight is saved as tare weight and parameter’s
value will switch back to NO. Now push button and access to next
parameter. Using button enter 500 kg and push button.
Put 500 kg feed into silo (because of reference weight is 500 kg for this example).
Wait for a little time for feed weigh reading stabilisation and
push button to switch parameter to YES.
Almost 3 seconds later feed weigh is saved as reference weight and parameter’s value switches back to NO.
FEED UNIT PARAMETERS
UNIT : WEIGHT FEED PER MIN: 1.0KG TARE : NO REF WEIGHT : 250KG TAKE REF WEIGHT: NO FEED OFFSET : 0KG
67
6.4.12.3 FEEDING SYSTEM (EPC 3&4)
FEEDING PARAMETERS PAGES have two different screens. These screens depend on CONTROL FUNC PAGE 1 PAGE CURVE parameter.
At the same time only one of these pages is used by EPC. In addition this, both pages has the same feature. If CONTROL FUNC PAGE 1 PAGE CURVE parameter is OFF all time the same parameters values which are in the FEEDING PARAMETERS are used. Otherwise the values are calculated by EPC depend on FEEDING PARAMETERS CURVE STEP pages.
FEEDING PARAMETERS CURVE STEP X
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
Start Time Feed Amount
FEEDING PARAMETERS
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
Start Time Feed Amount
MONITORING FEEDING DATA
Feeding data can be monitored via FEEDING CONSUMPTION page.
This page is explained at user section.
FEEDING SYSTEM
There could be two different feeding system.
- The system with loadcell
- The system without load cell
Depend on system selection EPC uses two different calculation method, to decide what method will use, FEED UNIT PARAMETERS PAGE UNIT parameter is used.
If there is a loadcell in the system, EPC uses FEEDING ANALOG input but if there is no loadcell in the system then EPC uses time and FEED UNIT PARAMETERS PAGE FEED PER MIN parameter to calculate for feeding consumption. Both system are more explained with examples in next pages.
STARTING OF THE NEW STEP
EPC captures time and compares it and step times continuously. If there is an equality between time and any step’s time then that step will run.
FEEDING CONSUMPTION
10.08.07 13:44:45 TARE : NO RESET CONSUM: NO REQUIREDFEED: 0KG EXIST FEED : 151KG TOTAL CONSUM: 20450KG DAY NUMBER : 1
FEED UNIT PARAMETERS
UNIT : WEIGHT FEED PER MIN: 1.0KG TARE : NO REF WEIGHT : 250KG TAKE REF WEIGHT: NO FEED OFFSET : 0KG
68
6.4.12.4 FEEDING FLOW CHARTS (EPC 3&4)
START
IS THERE
ENOUGH FEED TO
RUN
STEP?
YES
NO
IS FEEDING DIGITAL INPUT ON?
YES
NO
FEED CONSUMP­TION: REQUIRED FEED*
>=
<
FEED RELAY IS OFF & FEED LED IS OFF
CHANGE THE STEP’S FEED CONSUMP­TION DEPEND ON FEED ANALOG INPUT
DO NOT CHANGE THE STEP’S FEED CONSUMP­TION
FEED RELAY IS ON & FEED LED IS ON
With Loadcell
START
IS FEEDING DIGITAL INPUT ON?
YES
NO
IS TIME OVER?
FEED RELAY IS OFF & FEED LED IS OFF
RUN THE TIMER
PAUSE THE TIMER
CALCULATE DURATION AND SET TIMER USING CURRENT STEP
YES
NO
FEED RELAY IS ON & FEED LED IS ON
Without Loadcell
69
6.4.12.5 FEEDING (WITH LOADCELL) GRAPHICS (EPC 3&4)
If there is loadcell in the system then FEED UNIT PAREMETERS PAGE UNIT parameter must set to WEIGHT. For example;
FEEDING PARAMETERS
F1: 06:00 150 F2: 10:00 200 F3: 12:00 100 F4: 19:00 100 F5: 22:00 200
HR:MN FEED<KG>
Start Time Feed Amount
FEED UNIT PARAMETERS
UNIT : WEIGHT FEED PER MIN: 5.0KG TARE : NO REF WEIGHT : 250KG TAKE REF WEIGHT: NO FEED OFFSET : 0KG
FEEDING CONSUMPTION PAGE TOTAL CONSUMP changes as long as feeding digital input is ON (independent from any step and any time)
ON
OFF
Time[sec]
Feeding
relay output
Required Feed[kg]
0
Time [sec]
150
75
ON
OFF
Time[sec]
Feeding digital input
Feeding Consum. [kg]
0
Time [sec]
20600
20525
20450
20700
70
6.4.12.6 FEEDING (WITHOUT LOADCELL) GRAPHICS (EPC 3&4)
If there is no way to weigh feed then FEED UNIT PAREMETERS PAGE UNIT parameter must set to TIME. In this case EPC calculates the step working time by using FEED UNIT PAREMETERS PAGE FEED PER MIN parameter and current step’s “FEED <KG> “ column.
For example;
EPC calculates each step’s working time below; For F1 step: 30min (150/5) For F2 step: 40min (200/5) For F3 step: 20min (100/5) For F4 step: 20min (100/5) For F5 step: 40min (200/5)
For example if step F1 would work then its graphics could be below(minutes is converted to seconds);
FEEDING PARAMETERS
F1: 06:00 150 F2: 10:00 200 F3: 12:00 100 F4: 19:00 100 F5: 22:00 200
HR:MN FEED<KG>
Start Time Feed Amount
FEED UNIT PARAMETERS
UNIT : TIME FEED PER MIN: 5.0KG TARE : NO REF WEIGHT : 250KG TAKE REF WEIGHT: NO FEED OFFSET : 0KG
FEEDING CONSUMPTION PAGE TOTAL CONSUMP changes as long as feeding digital input is ON (independent from any step and any time)
ON
OFF
Time[sec]
Feeding
relay output
1900
Timer[sec]
0
Time [sec]
1800
900
910 1900100010
ON
OFF
Time[sec]
Feeding digital input
910 1900100010
71
6.4.12.7 FEEDING EXAMPLES (EPC 3&4)
Example 1;
FEED UNIT PARAMETERS PAGE UNIT parameter: WEIGHT FEEDING CONSUMPTION PAGE TOTAL CONSUMPTION
parameter: 6500 kg Consumption feed in last step: 1500 kg After F1 step finished, new value of FEEDING CONSUMPTION PAGE TOTAL CONSUMPTION parameter is; 6500 + 1500= 8000 kg
Example 2;
FEED UNIT PARAMETERS PAGE UNIT parameter: TIME FEED UNIT PARAMETERS PAGE FOOD PER MIN
parameter: 50.0 kg Duration: 1500/50.0 = 30min FEEDING CONSUMPTION PAGE TOTAL CONSUMPTION parameter: 6500 kg After F1 step finished, new value of FEEDING CONSUMPTION PAGE TOTAL CONSUMPTION parameter is; 6500+1500 = 8000 kg
FEEDING PARAMETERS
F1: 06:00 1500 F2: 10:00 6000 F3: 12:00 6000 F4: 19:00 6000 F5: 22:00 9000
HR:MN FEED<KG>
Start Time Feed Amount
Working without curve:
These paramaters are used;
Working with curve:
These paramaters are used;
- SET VALUES PAGE DAY < CURVE STEP2 DAY, FEEDING PARAMETERS PAGE step1 parameters are used,
- CURVE STEP2 DAY<=SET VALUES PAGE DAY < CURVE STEP3 DAY, FEEDING PARAMETERS PAGE step2 parameters are used,
- CURVE STEP3 DAY<=SET VALUES PAGE DAY < CURVE STEP4 DAY, FEEDING PARAMETERS PAGE step3 parameters are used,
- CURVE STEP4 DAY<=SET VALUES PAGE DAY < CURVE STEP5 DAY, FEEDING PARAMETERS PAGE step4 parameters are used,
- CURVE STEP5 DAY<=SET VALUES PAGE DAY < CURVE STEP6 DAY, FEEDING PARAMETERS PAGE step5 parameters are used,
- CURVE STEP6 DAY<=SET VALUES PAGE DAY < CURVE STEP7 DAY, FEEDING PARAMETERS PAGE step6 parameters are used,
- CURVE STEP7 DAY<=SET VALUES PAGE DAY < CURVE STEP8 DAY, FEEDING PARAMETERS PAGE step7 parameters are used,
- CURVE STEP8 DAY<=SET VALUES PAGE DAY < CURVE STEP9 DAY, FEEDING PARAMETERS PAGE step8 parameters are used,
- CURVE STEP9 DAY<=SET VALUES PAGE DAY < CURVE STEP10 DAY, FEEDING PARAMETERS PAGE step9 parameters are used,
- CURVE STEP10 DAY<=SET VALUES PAGE DAY, FEEDING PARAMETERS PAGE step10 parameters are used.
FEEDING PARAMETERS
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
FEEDING PARAMETERS CURVE STEP X
F1: 00:00 0 F2: 00:00 0 F3: 00:00 0 F4: 00:00 0 F5: 00:00 0
HR:MN FEED<KG>
FEED UNIT PARAMETERS
UNIT : TIME FEED PER MIN: 50.0KG TARE : NO REF WEIGHT : 250KG TAKE REF WEIGHT: NO FEED OFFSET : 0KG
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TARE: Tare adjustment parameter (Range: NO- YES / Factory Setting: NO). REF WEIGHT: Reference weight value is used to make weight calibration
(Range: 0 KG- 5000 KG / Factory Setting: 5000 KG). TAKE REF WEIGHT: Reference Weigh adjustment parameter (Range: NO- YES / Factory Setting: NO). LOAD: Active feed weigh reading (Range: -5000 KG - 5000 KG ).
WEIGHT1 CALIBRATION TARE: NO REF WEIGHT: 5000GR TAKE REF WEIGHT: NO
5000GR
6.4.13.1 WEIGHT1 ADJUSTMENT (EPC 4, EPC 4A)
LOAD
WEIGHT2 CALIBRATION TARE: NO REF WEIGHT: 5000GR TAKE REF WEIGHT: NO
5000GR
6.4.13.2 WEIGHT2 ADJUSTMENT (EPC 4, EPC 4A)
LOAD
WEIGHT3 CALIBRATION TARE: NO REF WEIGHT: 5000GR TAKE REF WEIGHT: NO
5000GR
6.4.13.3 WEIGHT3 ADJUSTMENT (EPC 4)
LOAD
6.4.13 WEIGHT (EPC 4,EPC 4A)
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TARE: Tare adjustment parameter (Range: NO- YES / Factory Setting: NO). REF WEIGHT: Reference weight value is used to make weight calibration
(Range: 0 KG- 5000 KG / Factory Setting: 5000 KG). TAKE REF WEIGHT: Reference Weigh adjustment parameter (Range: NO- YES / Factory Setting: NO).
LOAD: Active feed weigh reading (Range: -5000 KG - 5000 KG ).
TARE: Tare adjustment parameter (Range: NO- YES / Factory Setting: NO). REF WEIGHT: Reference weight value is used to make weight calibration
(Range: 0 KG- 5000 KG / Factory Setting: 5000 KG). TAKE REF WEIGHT: Reference Weigh adjustment parameter (Range: NO- YES / Factory Setting: NO). LOAD: Active feed weigh reading (Range: -5000 KG - 5000 KG ).
INITIAL WEIGH: Curve start average weigh (Range: 0 GR- 5000 GR / Factory Setting: 100 GR). MINIMUM LIMIT: Minimum limit for recordable weigh
(Range: 0 %- 50% / Factory Setting: 30%). MAXIMUM LIMIT: Maximum limit for recordable weigh (Range: 0 %- 50% / Factory Setting: 15%).
AVERAGE WEIGH1 INITIAL WEIGH: 100GR MINIMUM LIMIT: 30% MAXIMUM LIMIT: 15%
6.4.13.4 AVERAGE WEIGH1 (EPC 4, EPC 4A)
AVERAGE WEIGH2 INITIAL WEIGH: 100GR MINIMUM LIMIT: 30% MAXIMUM LIMIT: 15%
6.4.13.5 AVERAGE WEIGH2 (EPC 4, EPC 4A)
AVERAGE WEIGH3 INITIAL WEIGH: 100GR MINIMUM LIMIT: 30% MAXIMUM LIMIT: 15%
6.4.13.6 AVERAGE WEIGH3 (EPC 4)
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INITIAL WEIGH: Curve start average weigh (Range: 0 GR- 5000 GR / Factory Setting: 100 GR). MINIMUM LIMIT: Minimum limit for recordable weigh
(Range: 0 %- 50% / Factory Setting: 30%). MAXIMUM LIMIT: Maximum limit for recordable weigh (Range: 0 %- 50% / Factory Setting: 15%).
INITIAL WEIGH: Curve start average weigh (Range: 0 GR- 5000 GR / Factory Setting: 100 GR). MINIMUM LIMIT: Minimum limit for recordable weigh
(Range: 0 %- 50% / Factory Setting: 30%). MAXIMUM LIMIT: Maximum limit for recordable weigh (Range: 0 %- 50% / Factory Setting: 15%).
SS TIME: Steady state time for recordable weigh (Range: 0.3 SEC - 5.0 SEC / Factory Setting: 1.0 SEC). SS LIMIT VAL: Steady state limit value for recordable weigh (Range: 1 GR - 1000 GR / Factory Setting: 15 GR). AW MIN SMPL: Minimum sample for average weigh (Range: 1 - 1000 / Factory Setting: 100). AW SMPL PER: Average weigh sampling period (Range: 1 HR - 24 HR / Factory Setting: 2 HR).
WEIGHING PARAMETERS SS TIME : 1.0SEC SS LIMIT VAL: 15GR AW MIN SMPL : 100 AW SMPL PER : 2HR
6.4.13.7 WEIGHING PARAMETERS (EPC 4, EPC 4A)
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6.4.13.8 WEIGHING ADJUSTMENT (EPC 4, EPC 4A)
1. Weighing adjustment steps:
To make weighing adjustment, WEIGHTX CALIBRATION pages are used.
- WEIGHT1 CALIBRATION page is used to make WEIGHT1 0-10V input adjustment.
- WEIGHT2 CALIBRATION page is used to make WEIGHT2 0-10V input adjustment
- WEIGHT3 CALIBRATION page is used to make WEIGHT3 0-10V input adjustment The explanation below is for WEIGHT1 CALIBRATION page but actually it is common explanation. So given example is valid for each of three pages.
Adjustment steps
1. Take tare (TARE parameter)
2. Enter reference weight (REF WEIGHT parameter)
3. Take reference weight (TAKE REF WEIGHT parameter)
Access to WEIGHT1 CALIBRATION page
Push button to select TARE parameter
While the perch is empty push button to switch parameter’s value
to YES.
Almost 3 seconds later read weight is saved as tare weight and parameter’s
value will switch back to NO. Now push button and access to next
parameter. Using button enter 5000 gr and push button.
Thus, access to next parameter.
Put 5000 gr weigh into the perch (because of reference weight is 5000 gr for this example).
Wait for a little time and push button to switch parameter to YES.
Almost 3 seconds later 5000 gr weigh is saved as reference weight and parameter’s value switches back to NO.
WEIGHT1 CALIBRATION TARE: REF WEIGHT: 1000GR TAKE REF WEIGHT: NO
0GR
NO
WEIGHT1 CALIBRATION TARE: REF WEIGHT: 1000GR TAKE REF WEIGHT: NO
0GR
YES
WEIGHT1 CALIBRATION TARE: NO REF WEIGHT: GR TAKE REF WEIGHT: NO
0GR
5000
WEIGHT1 CALIBRATION TARE: NO REF WEIGHT: 5000GR TAKE REF WEIGHT:
0GR
NO
WEIGHT1 CALIBRATION TARE: NO REF WEIGHT: 5000GR TAKE REF WEIGHT:
0GR
YES
WEIGHT1 CALIBRATION TARE: NO REF WEIGHT: 5000GR TAKE REF WEIGHT:
5000GR
NO
WEIGHT1 CALIBRATION TARE: NO REF WEIGHT: 1000GR TAKE REF WEIGHT: NO
0GR
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6.4.13.9 WEIGHING (EPC 4, EPC 4A)
1. Weighing steps:
EPC can weigh the chickens via weigh channels and saves some data to give information to user. User can monitor chickens status day by day via these data. Flowing of the operation is quite simple and explained below;
2. Is curve mode on?
If curve mode is enabled, weighing works. Otherwise weighing functions are disabled. When curve mode is switched to ON, EPC uses equality below only once. DAY AVERAGE WEIGH = AVERAGE WEIGH PAGE INITIAL WEIGH DAY AVERAGE WEIGH MINIMUM LIMIT = DAY AVERAGE WEIGH * (1 - AVERAGE WEIGH PAGE MINIMUM LIMIT) DAY AVERAGE WEIGH MAXIMUM LIMIT = DAY AVERAGE WEIGH* (1 + AVERAGE WEIGH PAGE MAXIMUM LIMIT)
for example; DAY AVERAGE WEIGH = 100gr DAY AVERAGE WEIGH MINIMUM LIMIT = 100 * (1 -0.3) DAY AVERAGE WEIGH MINIMUM LIMIT = 70gr DAY AVERAGE WEIGH MAXIMUM LIMIT = 100* (1 +0.15) DAY AVERAGE WEIGH MAXIMUM LIMIT = 115gr
It means that EPC only save the weights between 70gr- 115gr. EPC recalculate DAY AVERAGE WEIGH same as below;
DAY AVERAGE WEIGH MAXIMUM LIMIT and DAY AVERAGE WEIGH MINIMUM LIMIT are also recalculated at each new DAY AVERAGE WEIGH calculation.
2. Is data stable?
EPC uses only stable data for calculation and logs. If data changing smaller than WEIGHING PARAMETERS PAGE SS LIMIT VAL parameter during WEIGHING PARAMETERS PAGE SS TIME parameter, EPC accepts the data stable.
3.How is EPC aware of chicken movement? EPC takes sequential two weights and calculates their different;
Different = Old Weight - Last Weight
If different is between TARGET WEIGH MINIMUM LIMIT and TARGET WEIGH MAXIMUM LIMIT this weight is accepted valid chicken weight and it is recorded to the nonvolatile memory.
4. Saved Data Struct
Today and yesterday data are stored in nonvolatile memory and each field has max. 9999 records. Each weighing channel has own today and yesterday fields. At the other hand, below data is saved for maximum 1005 days (curve can be maximum 1005 days).
- Average weigh,
- Feed consumption,
- Water consumption,
- Electricity consumption,
- Outside sensor minimum value,
- Outside sensor maximum value.
WEIGHING PARAMETERS SS TIME : 1.0SEC SS LIMIT VAL: 15GR AW MIN SMPL : 100 AW SMPL PER : 2HR
AVERAGE WEIGH1 INITIAL WEIGH: 100GR MINIMUM LIMIT: 30% MAXIMUM LIMIT: 15%
3
Record No=1
Record No=Number Of Record
WEIGHT[Record No]
Number Of Record
DAY AVERAGE WEIGH =
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ELECTRICITY: Electricity consumption per pulse (Range: 0 WH/Pulse - 9999 WH/Pulse / Factory Setting: 1000 WH/Pulse). WATER: Water consumption per pulse (Range: 0.00 LT/Pulse - 99.99 LT/Pulse / Factory Setting: 0.10 LT/Pulse).
WATER AND ELECTRICITY CONSUMPTION PER PULSE ELECTRICITY: 1000WH/P WATER : 0.10LT/P
6.4.14.1 WATER AND ELECTRICITY CONSUMPTION PER PULSE (EPC 4, EPC 4A)
ELECTRICITY ENERGY CONSUMPTION
03.07.06 02:11:27 RESET CONSUM: NO DAILY CONSUM: 15KWH TOTAL CONSUM: 5018KWH DAY NUMBER : 12
6.4.14.2 ELECTRICITY CONSUMPTION (EPC 4, EPC 4A)
EPC has an electricity consumption input which is called “ELECTRICITY” digital input.
Consumption increases as many WATER AND ELECTRICITY CONSUMPTION PER PULSE PAGE ELECTRICITY as each pulse Example:
ELECTRICITY ENERGY CONSUMPTION PAGE DAILY CONSUM : 0 KWH ELECTRICITY ENERGY CONSUMPTION PAGE TOTAL CONSUM : 23000 KWH WATER AND ELECTRICITY CONSUMPTION PER PULSE PAGE ELECTRICITY : 2000 WH/Pulse
Pulses = 2500, 2500*2000 = 5000000 WH, 5000000/1000 = 5000 KWH.
ELECTRICITY ENERGY CONSUMPTION PAGE DAILY CONSUM : 5000 KWH ELECTRICITY ENERGY CONSUMPTION PAGE TOTAL CONSUM : 23000 + 5000 = 28000 KWH
TO RESET DAILY CONSUM AND TOTAL CONSUM PARAMETERS
To switch curve from NO to YES will reset ELECTRICITY ENERGY CONSUMPTION PAGE DAILY CONSUM and ELECTRICITY ENERGY CONSUMPTION PAGE TOTAL CONSUM parameters.
To switch ELECTRICITY ENERGY CONSUMPTION PAGE RESET CONSUM from NO to YES and
pushing button will reset ELECTRICITY ENERGY CONSUMPTION PAGE DAILY CONSUM and
ELECTRICITY ENERGY CONSUMPTION PAGE TOTAL CONSUM parameters. ELECTRICITY ENERGY CONSUMPTION PAGE DAILY CONSUM parameter value is added to ELECTRICITY ENERGY CONSUMPTION PAGE TOTAL CONSUM parameter and cleared at each new day.
WATER AND ELECTRICITY CONSUMPTION PER PULSE ELECTRICITY: 1000WH/P WATER : 0.10LT/P
6.4.14 WATER AND ELECTRICITY CONSUMPTION (EPC 4, EPC 4A)
78
6.4.14.3 WATER CONSUMPTION (EPC 4, EPC 4A)
EPC has a water consumption input which is called “WATER CONSUMP.” digital input.
Consumption increases as many WATER AND ELECTRICITY CONSUMPTION PER PULSE PAGE WATER as each pulse
Example:
WATER CONSUMPTION PAGE DAILY CONSUM : 300 LT WATER CONSUMPTION PAGE TOTAL CONSUM : 14000 LT WATER AND ELECTRICITY CONSUMPTION PER PULSE PAGE WATER : 5 LT/Pulse
Pulses = 300 300*5 = 1500 LT
WATER CONSUMPTION PAGE DAILY CONSUM : 300 + 1500 = 1800 LT WATER CONSUMPTION PAGE TOTAL CONSUM : 14000 + 1500 = 15500 LT
TO RESET DAILY CONSUM AND TOTAL CONSUM PARAMETERS
To switch curve from NO to YES will reset WATER CONSUMPTION PAGE DAILY CONSUM and WATER CONSUMPTION PAGE TOTAL CONSUM parameters.
To switch WATER CONSUMPTION PAGE RESET CONSUM from NO to YES and pushing
button will reset WATER CONSUMPTION PAGE DAILY CONSUM and WATER CONSUMPTION
PAGE TOTAL CONSUM parameters. WATER CONSUMPTION PAGE DAILY CONSUM parameter value is added to WATER CONSUMPTION PAGE TOTAL CONSUM parameter and cleared at each new day.
WATER AND ELECTRICITY CONSUMPTION PER PULSE ELECTRICITY: 1000WH/P WATER : 0.10LT/P
WATER CONSUMPTION
03.07.06 02:11:27 RESET CONSUM: NO DAILY CONSUM: 1800LT TOTAL CONSUM: 14000LT DAY NUMBER : 12
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MIN PPM: Min ppm value that can be read by Nh3 sensor (Range: 0 - 100 / Factory Setting: 0). SAVE MIN: Parameter to save voltage for min PPM. (Range: NO- YES / Factory Setting: NO). MAX PPM: Min ppm value that can be read by NH3 sensor (Range: 0 - 100 / Factory Setting: 0). SAVE MAX: Parameter to save voltage for min PPM. (Range: NO- YES / Factory Setting: NO).
NH3 CALIBRATION MIN PPM : NO SAVE MIN: 0 PPM MAX PPM : 100 PPM SAVE MAX: NO
100PPM
6.4.15.1 NH3 CALIBRATION
6.4.15 NH3/CO2
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MIN PPM: Min ppm value that can be read by CO2 sensor (Range: 0 - 100 / Factory Setting: 0). SAVE MIN: Parameter to save voltage for min PPM. (Range: NO- YES / Factory Setting: NO). MAX PPM: Min ppm value that can be read by CO2 sensor (Range: 0 - 100 / Factory Setting: 0). SAVE MAX: Parameter to save voltage for min PPM. (Range: NO- YES / Factory Setting: NO).
NH3 CALIBRATION MIN PPM : NO SAVE MIN: 0 PPM MAX PPM : 100 PPM SAVE MAX: NO
100PPM
6.4.15.2 CO2 CALIBRATION
NH3 SET: NH3 set value (Range: 0 - 5000 / Factory Setting: 0). NH3 HYS: NH3 hysteresis value (Range: 0 -1000 / Factory Setting: 6). NH3 FCT: Increament factor of ventilation for over NH3 (Range: 0 - 8%00 / Factory Setting: 1%00). CO2 SET: CO2 set value (Range: 0 - 5000 / Factory Setting: 0). CO2 HYS: CO2 hysteresis value (Range: 0 -1000 / Factory Setting: 60). CO2 FCT: Increament factor of ventilation for over CO2 (Range: 0 - 8%00 / Factory Setting: 1%00).
NH3/CO2 SET VALUES NH3 SET : 60 NH3 HYS : 6 NH3 FCT : 1%00 CO2 SET : 300 CO2 HYS : 60 CO2 FCT : 1%00
6.4.15.3 NH3/CO2 SET VALUES
6.4.16 SMS PARAMETERS
SMS PARAMETERS NUM1 : NNN NNN NN NN NUM2 : NNN NNN NN NN NUM3 : NNN NNN NN NN
When CONNECTION parameter at MODBUS page is selected as ‘2’, modbus communication port is Rs485 and a GSM module can be connected on Rs232 port. At this stuation SMS feature is active. If an event defined at 5.4.15 EVENTS topic (page: 34) occurs, an SMS will be sent to defined GSM numbers.
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BAUD RATE: Communication Baud Rate (Range: 0- 4(0: 1200- 1: 2400- 2: 4800- 3: 9600- 4: 19200 baud rate) / Factory Setting: 3).
STOP BIT: Communication Stop Bit Selection (Range: 0- 1(0: 1 stop bit- 1: 2 stop bits) / Factory Setting: 0).
PARITY BIT: Communication Parity Selection (Range: 0- 2(0: None parity- 1: Odd parity- 2: Even parity) / Factory Setting: 0).
SLAVE ID: Communication Slave Adress Selection (Range: 1- 247 / Factory Setting: 1).
CONNECTION: Communication Port Selection. (’1’ for Rs232, ‘2’ for Rs485) (Range: 1- 2 / Factory Setting: 1).
6.4.17 MODBUS
MODBUS BAUD RATE : 3 STOP BIT : 0 PARITY BIT: 0 SLAVE ID : 1 CONNECTION: 1
TECHNICIAN: Technician password set value (Range: 0- 9999 / Factory Setting: 0). USER: User password set value (Range: 0- 9999 / Factory Setting: 0).
EDIT PASSWORDS
TECHNICIAN: 0000
USER : 0000
6.4.18 EDIT PASSWORDS
PASSWORD PARAMETER: Factory Adjustment field password query
IMPORTANT: UNAUTHORIZED ACCESSING TO ADJUSTMENT PAGES MAY EFFECT EPC’S WORKING EFFORT.
EMKO HAS NO RESPONSIBILITY, IF CUSTOMER ACCESSES TO ANALOG ADJUSTMENT PAGES
ENTER CAL
PASSWORD
0000
6.4.19 ENTER CAL PASSWORD
82
6.4.18 COOLING SHUTTER PARAMETER (EPC 4B)
83
COOLING SHUTTER STROKE TIM : 100SEC STEP : 0.1% COOLING OFS: 0.0°C SHUTTER COR: 0.0%
STROKE TIM: This is fully opening time of cooling shutter. The parameter’s range is 5-600 sec. To define this parameter correctly, firstly fully close the cooling shutter. Then, continuously open. Enter this parameter this opening time.
STEP: Minimum stroke time of the shutter is defined according to this parameter. If shutter oscilate please increase this parameter.
SOGUTMA OFS: This parameter is added to COOLING SET VALUE.
SHUTTER COR: Shutter correction parameter.
Shutter Gap = (Running Fan Count / Maximum Fan Count) * (1 + SHUTTER COR)
6.4.19 CONF IN SELECTION (EPC 4B)
CONF IN SELECTION CONF IN1: FEEDING INP CONF IN2: POWER CUT SHUTTER RESET: NO
CONF IN1: Can be defined as feeding input or digital input. CONF IN2: Can be defined as power cut signal or digital input. If it is defined as power cut signal input. SHUTTER RESET: If this parameter set as YES, after power cut, shutters will completely close and then
open.
7. SPECIFICATIONS
Device Type : Poultry Controller Housing& Mounting : 144mmx204mmx37mm (including connectors) plastic housing for
panel mounting
Panel Cut-Out : 138mmx186mm Protection : NEMA4X (IP65 at front panel, IP20 at rear side) Weight : Approximately 0.7 kg Environmental Ratings : Standard, indoor at an altitude of less than 2000 meters with
non-condensing humidity.
oooo
Operating/Storage Temperature : 0 C to +50 C / -25 C to +70 C Operating/Storage Humidity : 90 % max. (None condensing) Installation Overvoltage Category : II appliances, portable equipment Pollution Degree : II, normal office or workplace, none conductive pollution Mode of Operation : Continuous EMC : BS EN 61000-6-4, EMC Generic Emission Standard for industrial equipment
Supply Voltage(Z) : 24 VZ ± %15 (max. 350 mA) Analogue Input Types (Room1, Room2, Outside Temp.) : PT 100 (IEC751) (ITS90)
Accuracy: % 0.25 of full scale
Analogue Input Types (Feeding, Weight1, Weight2, Weight3) : 0 -10 VZ
Accuracy: % 0.25 of full scale
Dry Contact Inputs : Alarm1 (NO), Negative Press (NO), Feeding (NO), Electricity (NO),
Water Consumption (NO)
Fan Outputs Type : Relay output on Resistive Load 6A@250VV Heater 1 Output Type : Relay output on Resistive Load 6A@250VV Heater 2 Output Type : Relay output on Resistive Load 6A@250VV Cooling Output Type : Relay output on Resistive Load 6A@250VV Alarm 1 Output Type : Relay output on Resistive Load 6A@250VV Shutter Open Output Type : Relay output on Resistive Load 6A@250VV Shutter Close Output Type : Relay output on Resistive Load 6A@250VV Humidity Output Type : Relay output on Resistive Load 6A@250VV Feeding Output Type : Relay output on Resistive Load 6A@250VV Lighting Output Type : Relay output on Resistive Load 6A@250VV Analogue Outputs : 0 - 10 VZ
Accuracy: % 1 of full scale
Communication Interface : RS-232 serial communication
Led Display : Fan 1, Fan 2, Fan 3, Fan 4, Fan 5, Fan 6, Fan 7, Fan 8, Heater 1, Heater 2,
Colling, Alarm, Feeding, Lighting, Humidity, Program, Influence, Date setup Curve setup, Shutter Open, Shutter Close
Status Indicators : Shutter Man/Auto selection
84
9. Other Informations
Manufacturer Information:
Emko Elektronik Sanayi ve Ticaret A.Þ. Demirtaþ Organize Sanayi Bölgesi Karanfil Sk. No:6 16369 BURSA/TURKEY
Phone : +90 224 261 1900 Fax : +90 224 261 1912
Repair and Maintenance Service Information:
Emko Elektronik Sanayi ve Ticaret A.Þ. Demirtaþ Organize Sanayi Bölgesi Karanfil Sk. No:6 16369 BURSA/TURKEY Phone : +90 224 261 1900 Fax : +90 224 261 1912
Thank you very much for your preference to use Emko Elektronik
Products.
Your Technology Partner
www.emkoelektronik.com.tr
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