Elimko FT-10 Filter Timer
Specifications
- Operating Voltage: 85-265 V AC / 85-375 V DC, 20-60 V AC / 20-85 V DC
- Display Type: 2×4 digit 10 mm 7 segment display
- Alarm Outputs: Relay: SPST-NO 250 V AC, 3 A, Retransmission Output Current: 0-20 mA, 4-20 mA (isolated)
- Relay Outputs: Minimum 8 Relays, maximum 128 Relays SPST-NO 250 V AC, 1 A
- Relay Mechanical Life: 10,000,000 operations
- Relay Electrical Life: Almost same as mechanical life, because the switching is made with semiconductor
- Control Type Power Consumption: On/Off, Proportional(P) 7W (10 VA)
- Memory Weight: EEPROM max. 10,000 writing, 400 g
- Dimensions: 158 mm x 90 mm x 68 mm
Installation and Setup
Before installing and operating the device, please read the user manual thoroughly. The installation and configuration of the controller must only be performed by a person qualified in instrumentation.
Cleaning Instructions
Do not use alcohol or other solvents to clean the device. Use a clean cloth soaked in water tightly squeezed to gently wipe the outer surface of the device.
Safety Precautions
Keep the unit away from flammable gases that could cause an explosion. Do not use the device in medical applications.
Connection Diagrams
Refer to the connection diagrams provided in the user manual for proper connection of the control unit.
Type Coding
The type coding information provided in the manual helps in understanding the operating voltage, panel type, solenoid voltage, communication options, analog output, number of outputs, and pressure control.
Technical Specifications
Understand the technical specifications related to operating voltage, display type, alarm outputs, relay outputs, control type power consumption, memory weight, and dimensions of the device.
Storage Instructions
Follow the recommended storage temperature guidelines provided in the manual to ensure optimal performance and longevity of the device.
FAQs
Q: Can I use alcohol to clean the device?
A: No, it is recommended not to use alcohol or other solvents for cleaning. Use a clean cloth soaked in water instead.
Q: Can this device be used in medical applications?
A: No, this device is not intended for use in medicalapplications.
“`
E-FT-10 USER MANUAL
Elimko
E-FT-10 device control units are designed for rail mounting and should be used in an industrial environment.
m The package of E-FT-10 device contains; Device User manual Guarantee certificate
m After opening the package, please check the contents with the above list. If the delivered product is wrong type, any item is missing or there are visible defects, contact the vendor from which you purchased the product.
m Before installing and operating the device, please read the user manual thoroughly. m The installation and configuration of the controller must only be performed by a person qualified in instrumentation. m Keep the unit away from feamable gases, that could cause explosion. m Do not use alcohol or other solvents to clean the device. Use a clean cloth soaked in water tightly squeezed to gently wipe the outer
surface of the device.
m It s not used in medical applications.
1. INTRODUCTION
Elimko
RL1 RL2 OUT PR
ENTER
FT-10 P
8888
8888
LO
HI
PRG
Figure 1.1 FT-10 Front Panel
E-FT-10 is a programmable timer which has pressure control unit, is used in filter cleaning system. Device contains a control unit and output units, that are controlled by control unit. Control unit controls the output units on communication line. Operating and selonoid voltages of output units are supplied from control unit.
Control unit has 8 outputs, each output unit has up to 16 outputs. Outputs can switch maximum 250 VAC, 1A. Device has 2 alarm relays. These relays can give an alarm to user, if any problem exists on output selonoids. RS-485 communication line on the device works according to Modbus protocol. Configuration parameters and error messages can also be viewed using Modbus. Outputs scanning order is configured by comminucation line.
Device has 2 different kind of pressure input according to device type code, that is explained in 1.1 TYPE CODING. If U (TYPE CODING) is selected as “1”, pressure inputs are connected on quick connect, that is shown as LO and HI on the front panel. In this case, differential pressure is measured by internal pressure sensor. If U (TYPE CODING) is selected as “2”, an analog signal (current or voltage) is connected to analog input of device. In these two different situation, pressure value is shown on display, retransmitted on analog output. Device can perform ON/OFF or proportional control according to pressure value. These control methods are explained in 4.1 CONTROL TYPES.
E – FT – 10 – T – U – V – W – X – Y – Z
Operating Voltage 0: 85-265 VAC / 85-375 VDC 1: 20-60 VAC / 20-85 VDC
Panel 0: None 1: Panel
Selonoid Voltage 0: None 1: Yes (220 VAC, 24 VAC, 24 VDC) (2) Communication 0: None 1: RS-485 Analog Output 0: None 1: 1 Analog Output Number of Output 8: 8 relays 72: 72 relays 16: 16 relays 80: 80 relays 24: 24 relays 88: 88 relays 32: 32 relays 96: 96 relays 40: 40 relays 104: 104 relays 48: 48 relays 112: 112 relays 56: 56 relays 120: 120 relays 64: 64 relays 128: 128 relays Pressure Control (1) 0: None 1: Pressure Sensor 2: Analog Input (4 – 20 mA) 3: Analog Input (0 – 10 V DC)
1.2. TECHNICAL SPECIFICATION
Operating Voltage
85-265 V AC / 85-375 V DC 20-60 V AC / 20-85 V DC
Display Type
2×4 digit 10 mm 7 segment display
Alarm Outputs
Relay: SPST-NO 250 V AC, 3 A
Retransmission Output Current: 0-20 mA, 4-20 mA (isolated)
Relay Outputs
Minimum 8 Relays, maximum 128 Relays SPST-NO 250 V AC, 1 A
Relay Mechanical Life 10 000 000 operation
Relay Electrical Life
Almost same as mechanical life, because the switching is made with semiconductor.
Control Type Power Consumption
On/Off, Proportional(P) 7W (10 VA)
Operating Temperature 0 °C, +55 °C (With no condensation or icing)
Storage Temperature
Memory Weight
-25 °C, +55 °C (With no condensation or icing)
EEPROM max. 10000 writing 400 g
1.3. DIMENSIONS
Elimko
FT-10
P
RL1 RL2 OUT PR
8888
ENTER
8888
LO
HI
PRG
158 mm
90 mm 68 mm 45 mm
Elimko
FT-10
105 mm
34 mm 49 mm 58 mm
90 mm 90 mm
(1) Pressure sensor of device works in ±7kPa range. If pressure control is selected as analog input, input type and input range must be defined on order.
(2) When X is selected as “1” (Solenoid Voltage Yes) than Y must be selected as “1”. When X is selected as “1” factory default is 24 VDC.
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2. CONNECTION DIAGRAMS 2.1. CONTROL UNIT CONNECTION DIAGRAM
85-265 V AC/85-375 V DC 20-60 V AC/20-85 V DC
Output Units Power Supply
RS-485 Communication
Line
Output Units Data Line
Start Input
Analog Output
–
A
123 LN
4
5
6
7
8
9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 TRXB TRXA GND – VSUP- DATA IN1 IN2 INC+ – A.OUT –
Elimko
RL1 RL2 OUT PR
ENTER
FT-10
8888
8888 PRG
B
– AIN 1234
–
5
6
7
–
– VSIN – – VOUT- O1 C O2 O3 C O4 O5 C O6 O7 C O8 RL1 RL2 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28
– V-
–
Selonoid Supply
Output Units Selonoid Supply
Selonoid Terminals
Alarm2 Alarm1
m A21 and A22 (+VSUP-) terminals are power supply of output
units and are connected to A2 and A3 terminals of output units. A23 (DATA) terminal is data line of output units, and are connected to A1 terminal of output units. These terminals must be connected in order to power output units.
m Selonoids supply voltage must be connected B9 and B10
(+VSIN-) terminals.
m B11 and B12 (-VOUT+) terminals must be connected to
B5 and B6 (+VIN-) terminals of output units for selonoid supply voltage on output units. If these terminals are not connected, all of selonoids on output units are open circuit, so device gives alarm and selonoids are not powered.
m Alarm1 and Alarm2 give alarm according to different alarm
source, that is explained 4.2 ALARM RELAYS.
2.2. OUTPUT UNIT CONNECTION DIAGRAM
Output Units Power Supply
Selonoid Terminals
Output Units Data Line
A
1 DATA
23 – VSUP-
4
5
6
7 O1
8 C
9 10 11 12 13 14 15 16 17 18 O2 O3 C O4 O5 C O6 O7 C O8
Elimko
FT-10
–
B
1
2
3
– VIN – O9 4567
C O10 O11 C O12 O13 C O14 O15 C O16 8 9 10 11 12 13 14 15 16 17 18
Selonoid Supply
Selonoid Terminals
m Control Unit A1-A3, B9-B28, output unit A7-A18, B5-B18
terminals have dangerous voltage. While device is powered, never touch to these terminals.
m Before operating the device, ensure that the device is
correctly configured. Incorrect configuration could result malfunction.
Elimko
3. USAGE
E-FT-10 front panel image is shown in 1.INTRODUCTION part. RL1 led lights when Relay1 (RL1) is powered, RL2 led lights when Relay2 (RL2) is powered, OUT led lights when any selonoid output is powered, and PR led lights during configuration mode. During normal operation page, active group number (XX) is shown on the top display like as (GrXX), and active output number (YYY) is shown on the bottom display like as (OYYY). During normal operation page, ENTER button is used for displaying differential pressure and set values and changing set values. While SETL and SETH parameters are shown, and buttons change the set values and PRG button reverts to the normal operation page. During normal operation page, if and buttons are pressed together, error message display is opened. During error message display, ENTER button is used for scanning outputs that have an error, PRG button reverts to the normal operation page. Except the normal operation page, if any button isn’t pressed for more than 25 seconds, device reverts to normal operation page automatically. Configuration page is opened to configure other parameters of device.
qPressing PRG button for more over 2 seconds enters the configuration
page.
qWhen the configuration page is entered, COD message is shown
on the top display and 0 is shown on the bottom display. Security code must be entered correctly to configure the parameters. If the security code is entered incorrectly, parameters are showned, but parameters can not be changed.
qFactory setting of the security code is “10”. The security code can
be changed with SCOD parameter. If the security code is forgotten, repower the device and pressing ENTER, and buttons together with in 1 minute after start up. After that security code control isn’t made one time to enter configuration page, so the security code can be changed with SCOD parameter.
qWhen the security code is entered correctly, pressing ENTER button
enters the configuration pages.
qDuring configuration pages, and buttons select pages, ENTER
button enters to the selected page, PRG button reverts to normal operation page.
qWhile in configuration pages, ENTER button selects parameters,
and buttons change the value of parameters, ENTER button is pressed for more over 1 second for revert to configuration pages display, PRG button reverts to normal operation page.
NOTE : Error Message Display (see 3.2 DISPLAY FIGURES)
During Alarm
GR01
No
High
O 4
O 16
GR01
O 1
Volt ENTER Prss ENTER Open ENTER Shrt PRG O 1
During None Alarm
GR01
NO
GR01
O 1
ERR PRG O 1
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3.1. PARAMETERS EXPLANATIONS
PRG
PRG
PRG
PRG
Gr01 ENTER PRSS ENTER SETL ENTER SETH ENTER ASP ENTER
O 1
0
0
1000
500
PRG(2 sn)
PRG COD 0
ENTER
(ifrenin yanli girilmesi halinde parametreler görüntülenir fakat ayarlanamaz)
PRG
PRG PAGE GCNF
PAGE CLBR
PAGE PRG OCNF
ENTER
ENTER
ENTER
PRG CTYP
FLTR PRG
OC 1 PRG
PRSS: Differential pressure value. SETL: Differential pressure value low set value. Parameter can be set between -1999 and SETH. SETH: Differential pressure value high set value. Parameter can be set between Setl and 9999. ASP : Differential pressure value alarm set value. Parameter can be set between -1999 and 9999. COD : Security code value for setting parameters. Security code enters between 0 and 9999.
Parameters of Gcnf Page CTYP: Control Type. Parameter can set None, Onof or prop. (Refer to 4.1. CONTROL TYPES)
ONOF
1
O16
DP : Decimal point of differential pressure. Parameter can be set between 0 and 3.
ENTER
PRG DP 0
ENTER
ENTER
OLCR PRG -35
ENTER
ENTER
OC 2 PRG O16
ENTER
RTLL: Analog output retransmission low level. Parameter can be set between -1999 and 9999. RTHL: Analog output retransmission high level. Parameter can be set between -1999 and 9999. MAR : Analog output retransmission current range. Parameter can be set 0-20, 20-0, 4-20, 20-4.
PRG RTLL 0
ENTER
PRG RTHL 9999
ENTER
OHCR PRG 2000
ENTER
ZERO PRG 0
ENTER
OC 3 PRG O16
ENTER
OC 4 PRG O16
ENTER
INS : Differential pressure offset value. According to that paramater, differential pressure value has positiveor negative offset. Parameter can be set between -1999 and 9999.
HYS : Hysterisis value of differential pressure alarm set value (ASP). Parameter can be set between 0 and 9999.
R1TP: Alarm type of RL1 alarm relay. Parameter can be set NO or NC.(see Table 4)
PRG MAR 4-20
ENTER
PRG INS 0
ENTER
PRG HYS
ZRCL PRG 60
ENTER
SPAN PRG 500
ENTER
Spcl PRG
OC 5 PRG O16
ENTER
OC 6 PRG O16
ENTER
OC 7 PRG
R1FN: Alarm function of RL1 alarm relay. Parameter can be set between 0 and 15. (see 4.2 ALARM RELAYS)
R1KB: When R1KB is selected ON, in case of an alarm, user must acknowledge the alarm by pressing and buttons in order to deactivate alarm output. Parameter can be set ON or OFF.
R2TP: Alarm type of RL2 alarm relay. Parameter can be set NO or NC.(see Table 4)
10
ENTER
PRG R1tp No
ENTER
PRG R1fn 0
ENTER
PRG R1kb On
ENTER
PRG R2tp No
ENTER
600
ENTER
AOL PRG 1000
ENTER
AOH PRG 7000
ENTER
SCOD PRG 10
ENTER
Sayfa Baina
O16
ENTER
OC 8 PRG O16
ENTER
OC 9 PRG O16
ENTER
OC10 PRG O16
ENTER
OC11 PRG O16
ENTER
R2FN: Alarm function of RL2 alarm relay. Parameter can be set between 0 and 15. (see 4.2 ALARM RELAYS)
R2KB: When R2KB is selected ON, in case of an alarm, user must acknowledge the alarm by pressing and buttons in order to deactivate alarm output.Parameter can be set ON or OFF.
TA : Selonoid outputs break time. This parameter determines the break time between two outputs. Parameter can be set between 0.1 and 999.9 in seconds.
TP : Selonoid outputs pulse time. This parameter determines the pulse time of each outputs. Parameter can be set between 0.1 and 100.0 in seconds.
TG : Selonoid outputs group break time. While Ngrp parameter is higher than “1”, this parameter determines the break time between each group. Parameter can be set between 0.1 and 999.9 in seconds.
PRG R2fn 0
ENTER
PRG R2kb On
ENTER
PRG TA 1.0
ENTER
PRG TP 1.0
ENTER
PRG TG 1.0
ENTER
PRG TB
OC12 PRG O16
ENTER
OC13 PRG O16
ENTER
OC14 PRG O16
ENTER
OC15 PRG O16
ENTER
Sayfa Baina
TB : Selonoid outputs waiting time. This parameter determines waiting time, after all outputs are powered. Parameter can be set between 0.1 and 999.9 in seconds.
NOUT: Number of outputs. This parameter determines the number of outputs. Parameter can be set between 1 and 128.
NGRP: Number of groups. This parameter determines number of groups while filtering is done with different groups. Parameter can be set between 1 and 16. If this parameter set “1”, filtering is done only one group.
GTIP: Type of group operation. Parameter can be selected TIP1 and TIP2. NTUR: Number of selonoids scanning after deactivation of start input. Parameter can be set
between 0 and 50. OUTL: Low limit of internal impedance of selonoids. If the impedance measurement of
selonoids are lower than that value, device gives a short circuit alarm. Parameter can
be set between 0.00 kW and Outh. If this parameter set to “0” the device dosen’t control short circuit.
10.0
ENTER
PRG NOUT 8
ENTER
PRG NGRP
OUTH: High limit of internal impedance of selonoids. If the impedance measurement of selonoids are higher than that value, device gives an open circuit alarm. Parameter can
be set between OutL and 30.00 kW.
TATP: When TATP is selected as Off, faulty selonoids are skipped immediately, and when TATP is selected as On, all the timings work as usual. Parameter can be set ON or OFF.
1
ENTER
PRG NTUR 3
ENTER
PRG GTIP TIP1
ENTER
BAUD: Communication baud rate. Parameter can be set 4.8, 9.6,19.2 or 38.4 kBaud. Baud rate of all devices in same communication line should be the same as baud rate of master device.
PRTY: Communication parity. Parameter can be set NONE, ODD or EVEN. Parity of all devices in same communication line should be the same as parity of master device.
ADRS: Communication address. Parameter can be set between 1 and 127. All device in same communication line should have an unique address.
PRG OUTL
Parameters of clbr Page
0.02
ENTER
PRG OUTH 20.00
ENTER
PRG TATP ON
ENTER
FLTR: Filter value of differential pressure value. This parameter determines the number of samples to be averaged for calculation of differential pressure value. Parameter can be set between 1 and 16.
OLCR: 0 Ohm calibration value of selenoid resistance measurument. This parameter isn’t advised to change. Selonoid supply voltage that is connected to B9 and B10 terminals is broken. B11 and B12 terminals are done short-circuit and buttons press together in order to save value.
PRG BAUD 9.6
ENTER
PRG PRTY ODD
ENTER
PRG ADRS
OHCR: 1000 Ohm calibration value of selonoid resistance measurument. This parameter isn’t advised to change. Selonoid supply voltage that is connected to B9 and B10 terminals is broken. 1000 ohm resistance is connected to B11 and B12 terminals. and buttons press together in order to save value.
ZERO: This parameter determines pressure value of low calibration of pressure input. Parameter can be set between -1999 and 9999.
1
ENTER
Sayfa Baina
ZRCL: Zero calibration value of differential pressure. This parameter isn’t advised to change. ZERO value differential pressure is applied to differential pressure input of device. and buttons press together, in order to save value.
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Elimko
Parameters of clbr Page (continuation)
SPAN: This parameter determines pressure value of high calibration of pressure input. Parameter can be set between -1999 and 9999.
SPCL: Span calibration value of differential pressure. This parameter isn’t advised to change. SPAN value differential pressure is applied to differential pressure input of device. and buttons press together, in order to save value.
AOL : Analog output 4 mA calibration value. This parameter isn’t advised to change. Connect an ampermeter A27(-) and A28(+) terminals. While the parameter is selected, adjust the parameter with and buttons value until the meter reading is equal to 4 mA.
AOH : Analog output 20 mA calibration value. This parameter isn’t advised to change. Connect an ampermeter A27(-) and A28(+) terminals. While the parameter is selected, adjust the parameter with and buttons value until the meter reading is equal to 20 mA.
SCOD: Security code.
Parameters of OCNF Page
The parameters between OC 1 and OC15 are used to determine the count of output on the connected output cards. The output cards are produced 8 or 16 outputs in manufacturing period. These parameters are used to define the count of outputs to device. These parameters are set to O8 or O16.
3.2. DISPLAY FIGURES
Normal Operating Display
Error Messages Display
Gr01 1. Group 15. Output O 15
No
No Selonoid Voltage
Volt
Gr03 3. Group 8. Output O 8
O 2 Selonoid on Output 2 Shrt Short Circuit
Gr03 3. Group Break Time —-
O 13 Selonoid on Output 13 Open Open Circuit
——-
Waiting Time
High High Pressure Alarm Prss
Stop Wait Start Input —-
No
No Alarm
Err
4. WORKING PRINCIPLES
When NGRP parameter is equal to “1”, Starting of scanning selonoids, device waits for TA break time, after that O1 output is activated. This output is active for TP pulse time, after that O1 output is deactivated. Device waits TA break time and same process repeats with the next selonoid. This process continues until number of outputs reach to NOUT parameter. When last output is deactivated at the end of TP pulse time, device starts to TB waiting time. After waiting that time, TA break time is started and O1 output is activated at the end of TA break time and repeats same process. If start input of device is active, this process continues. After deactivation of start input, the device repeats this process for NTUR times and stop the process. First of 8 outputs is used on the control unit. Output units must be used for more than 8 outputs.
tb
0
tp
0
ta
0
OUT1
OUT2
OUT3
OUT4
OUT5
Figure 4.1: Working diagram (NGRP = 1, NOUT = 5)
In case the device NGRP parameter is greater than 1, 2 different operating type is available. This operating type is determined by the GTIP parameter. In applications where the number of groups is greater than 1, the group 1 output card is used as the selection card.
When the GTIP parameter is set to TIP1, the device works as shown in Figure 4.2. When scanning starts, O1 output of group card is energized and 1st Group is selected. TA break time is started. O1 output of the device is energized at the end of the break time period and the TP pulse time is started. At the end of the pulse time period, O1 is de-energized and TA break time is started again and the same operation is repeated until the number of output reaches the value of NOUT parameter. When the last output is de-energized, O1 output of the group card is de-energized togetherly. TG group waiting time is started. At the end of the group waiting time period, the O2 output of the group card is energized and the 2nd Group is selected. The operations in the 1st group are repeated exactly. this group operations is repeated until the number of group reaches the value of NGRP parameter. At the end of the last group operation, TB waiting time period starts. After the waiting time period, 1st group is selected again and same operations are repeated.
tb
tg
0
tp
0
ta
0
GRUP1 GRUP2
OUT1 OUT2 OUT3
Figure 4.2: Working Diagram (NGRP = 2, NOUT = 3 and GTIP = TIP1)
When the GTIP parameter is set to TIP1, the device works as shown in Figure 4.3. When scanning starts, O1 output of group card is energized and 1st group is selected. TA break time is started. O1 output of the device is energized at the end of the break time period and the TP pulse time is started. At the end of the pulse time period, O1 is de-energized and TA break time is started again and the same operation is repeated until the number of output reaches the value of NOUT parameter. When the last output is de-energized, O1 output of the group card is de-energized togetherly. TG group waiting time is started. At the end of the group waiting time period, the O2 output of the group card is energized and the 2nd group is selected. The outputs of 2nd group starts from where the last output of 1st group, and scanning operation is repeated until the number of output reaches the value of NOUT parameter. As seen in the example, the last output of 1st group is energized O3 output, and the first output of 2nd group is energized O4 output. This group operations is repeated until the number of group reaches the value of NGRP parameter. At the end of the last group operation, TB waiting time period starts. After the waiting time period, 1st group is selected again and same operations are repeated.
tb
tg
0
tp
0
ta
0
GRUP1 GRUP2
OUT1 OUT2 OUT3 OUT4 OUT5 OUT6
Figure 4.3: Working Diagram (NGRP = 2, NOUT = 3 and GTIP = TIP2)
If start input of device is active, this process continues. After deactivation of start input, device repeats this process for NTUR times and stop the process. First of 8 outputs is used on control unit. Output units must be used for more than 8 outputs. One output unit is used to group selection unit. Selonoid supply of group selection unit (+VIN-) is connected to control unit (+VSIN-) terminal.
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4.1. CONTROL TYPES
CTYP parameter determines control type of the device, is selected as NONE, ONOF or PROP. If CTYP parameter is selected as NONE, device doesn’t do any control during TB waiting times. Entire of TB waiting time is waited. If CTYP parameter is selected as ONof, if differential pressure value is higher than SETH parameter, TB waiting time is skipped during the process. If differential pressure value is lower than SETL parameter, Entire of TB waiting time is waited during the process. If differential pressure value is between SETL and SETH parameters, device does the same as previous scanning.
Tb
0
SetL
SetH
If CTYP parameter is selected as prop, if differential pressure value is higher than SETH parameter, TB waiting time is skipped during the process. If differential pressure value is lower than SETL parameter, Entire of TB waiting time is waited during the process. If differential pressure value is between SETL and SETH parameters, TB waiting time is set between 0 and TB proportionally.
Tb
0
SetL
SetH
4.2. ALARM RELAYS
Rl1 and RL2 are alarm relays, that give alarm according to one or more than one alarm source. Alarm type of these relays are adjusted as normally open or normally closed. Device gives alarm in case of break selonoid supply, open or short selonoids and high differential pressure value. These alarm sources are adjusted for both of the relays with R1FN and R2FN parameters, like as Table 4.2. Alarm types of relays, that is NO normally open and NC normally closed are adjusted for both of the relays with R1TP and R2TP parameters, like as Table 4.1. When alarm relays are powered, user can acknowledge the alarm and deactivate the alarm relay according to R1KB and R2KB parameters. If these parameters are selected ON, user open error message page and deactivates relay, but led of relay continues to light. In this situation, error message of alarm is shown in error message page. Led of relay fades after alarm state. If these parameters are selected OFF, relay and led deactivates after the alarm state ends.
RXTP
NO (Normally Open)
NC (Normally Closed)
1
1
0 ALARM
0 ALARM
Table 4.1. Alarm Types
RXFN
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
Explanations (SC: Short Circuit, OC: Open Circuit, HP: High Pressure, NSS: No Selonoid Supply, SA: Scan Active) No Alarm SC OC SC / OC HP HP / SC HP / OC HP / OC / SC NSS
NSS / SC NSS / OC NSS / OC / SC NSS / HP NSS / HP / SC NSS / HP / OC NSS / HP / OC/ SC
RXFN
16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
Explanations (SC: Short Circuit, OC: Open Circuit, HP: High Pressure, NSS: No Selonoid Supply, SA: Scan Active) SA
SA / SC
SA / OC
SA / OC / SC
SA / HP
SA / HP / SC
SA / HP / OC
SA / HP / OC / SC
SA / NSS
SA / NSS / SC
SA / NSS / OC
SA / NSS / OC / SC
SA / NSS / HP
SA / NSS / HP / SC
SA / NSS / HP / OC
SA / NSS / HP / OC / SC
Table 4.2. Alarm Sources
4.2.1. OPEN / SHORT CIRCUIT ALARM
Device can give alarm, while short or open circuit happen on selonids. Device measures the selonoid line and controls any error on the selonoid line, before device powers the selonoids. If any error is occured on selonoid, device doesn’t power the selonoid and gives alarm, so that outputs of device don’t need any fuses. In the selonoids scanning, while the selonoid has any problem, device works differently according to TATP parameter. If parameter is selected ON, device waits TA and TP timing for that selonoid, but output doesn’t powered. If the parameter is selected OFF, device doesn’t wait TA and TP timing, and continues next output. OUTH parameter determines open circuit state, OUTL parameter determines short circuit state. OUTL parameter should be set to half of the nominal resistance of the selonoids, OUTH parameter should be set to two times of the nominal resistance of the selonoids.
4.2.2. HIGH PRESSURE ALARM
Device, that has pressure control gives high pressure alarm according to ASP and HYS parameters. If differential pressure is higher than ASP parameter, device gives high pressure alarm. The alarm condition ends when the differential pressure reading decrease to ASP – HYS.
4.2.3. NO SELONOID SUPPLY ALARM
If Selonoid supply of device, that is connected (+VSIN-) terminals is broken, device gives no selonoid supply alarm.
4.2.4. SCAN ACTIVE ALARM
When Start input of device that is in A24 (IN1) terminal is active, the device gives scan active alarm. All of these alarms is shown on display to user. In addition, if device has RS-485 communication, the alarms can be read from Modbus protocol.
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Elimko
4.3. SCANNING ORDER OF OUTPUTS
Scanning order of the device starts with 1, and ends with 128 in factory settings. The scanning order can be configured using Modbus protocol. Register addresses of these order parameters are shown in Table 4.3.
Address 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131
Parameter OUT 1-2 OUT 3-4 OUT 5-6 OUT 7-8 OUT 9-10 OUT 11-12 OUT 13-14 OUT 15-16 OUT 17-18 OUT 19-20 OUT 21-22 OUT 23-24 OUT 25-26 OUT 27-28 OUT 29-30 OUT 31-32 OUT 33-34 OUT 35-36 OUT 37-38 OUT 39-40 OUT 41-42 OUT 43-44 OUT 45-46 OUT 47-48 OUT 49-50 OUT 51-52 OUT 53-54 OUT 55-56 OUT 57-58 OUT 59-60 OUT 61-62 OUT 63-64
Property R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W
Address Parameter 132 OUT 65-66 133 OUT 67-68 134 OUT 69-70 135 OUT 71-72 136 OUT 73-74 137 OUT 75-76 138 OUT 77-78 139 OUT 79-80 140 OUT 81-82 141 OUT 83-84 142 OUT 85-86 143 OUT 87-88 144 OUT 89-90 145 OUT 91-92 146 OUT 93-94 147 OUT 95-96 148 OUT 97-98 149 OUT 99-100 150 OUT 101-102 151 OUT 103-104 152 OUT 105-106 153 OUT 107-108 154 OUT 109-110 155 OUT 111-112 156 OUT 113-114 157 OUT 115-116 158 OUT 117-118 159 OUT 119-120 160 OUT 121-122 161 OUT 123-124 162 OUT 125-126 163 OUT 127-128
Property R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W
Tablo 4.3. Output Configuration Parameters Modbus Address Table
NOTE1: Parameters, that shown in Table 4.3 are 16-bits. For example low 8-bits of OUT1-2 parameter shows first output, high 8-bit of OUT1-2 parameter shows second output. In below example, output 5 is powered firstly, output3 is powered secondly according to OUT1-2 parameter. Other parameters are configured the same method.
OUT1-2 = 773
son 8-bit = 3
ilk 8-bit = 5
NOTE2: Low and High 8-bits of parameters must be set between 1 and 128. Otherwise, sent values of these parameters aren’t saved according to protocol.
5. OUTPUT UNITS
Each output unit has 16 outputs. Output units communicate with control unit over DATA terminal. If this connection breaks, output unit doesn’t work. Power supply of output units are supplied with (+VSUP-) terminals. Each output unit, that is connected to control unit has an address. These adresses are configured via jumpers on output unit cards. More than one unit mustn’t have same adresses. Jumper configuration of addresses are shown in Table 5.1. (+VIN-) terminals of output units must be connected to (-VOUT+) terminals of control unit. If any problem on that connection occurs, all of the selonoids are measured open circuit and any output isn’t powered. If filtering system has more than one group, one output unit must be used for group selction unit. Selonoid supply of this unit must be connected (+VSIN-) terminals of control unit.
Jumper
1234
Explanations 1. Output Card
Jumper
1234
Explanations 9. Output Card
1234
2. Output Card
1234
10. Output Card
1234
3. Output Card
1234
11. Output Card
1234
4. Output Card
1234
12. Output Card
1234
5. Output Card
1234
13. Output Card
1234
6. Output Card
1234
14. Output Card
1234
7. Output Card
1234
15. Output Card
1234
8. Çiki Karti
1234
Group Selection Card
Table 5.1. Configurations of Jumper
KY-FT10-0324-1
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E-FT-10 USER MANUAL
Elimko
6. COMMUNICATION ADRESSES
Address Parameter
Explanation
0 Alarm Data 1 See Table1
1 Alarm Data 2 See Table1
2 Alarm Data 3 See Table1
3 Alarm Data 4 See Table1
4 Alarm Data 5 See Table1
5 Alarm Data 6 See Table1
6 Alarm Data 7 See Table1
7 Alarm Data 8 See Table1
8 Alarm Data 9 See Table1
9 Alarm Data 10 See Table1
10 Alarm Data 11 See Table1
11 Alarm Data 12 See Table1
12 Alarm Data 13 See Table1
13 Alarm Data 14 See Table1
14 Alarm Data 15 See Table1
15 Alarm Data 16 See Table1
16 Alarm Data 17 See NOTE2
17 PRSS
18 SETL
19 SETH
20 ASP
21 CTYP
0:NONE, 1:ONOF, 2:PROP
22 DP 23 RTLL 24 RTHL
25 MAR
0:0-20, 1:20-0, 2:4-20, 3:20-4
26 INS 27 HYS 28 R1TP 29 R1FN 30 R1KB 31 R2TP 32 R2FN 33 R2KB 34 TA 35 TP 36 TG 37 TB 38 NOUT 39 NGRP 40 NTUR 41 OUTL 42 OUTH 43 TATP
0:NO, 1:NC 0:ON, 1:OFF 0:NO, 1:NC 0:ON, 1:OFF
0:ON, 1:OFF
44 BAUD
0:4.8, 1:9.6, 2:19.2, 3:38.4
Property Min. Max. R R R R R R R R R R R R R R R R R R
R/W -1999 SETH R/W SETL 9999 R/W -1999 9999
R/W
0
2
R/W R/W R/W
0
3
-1999 9999
-1999 9999
R/W
0
3
R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W
-1999 9999
0 9999
0
1
0 15
0
1
0
1
0 15
0
1
1 9999
1 1000
1 9999
1 9999
1 128
1 16
0 50
0 OUTH
OUTL 3000
0
1
R/W
0
3
45 PRTY
0:NONE, 1:ODD, 2:EVEN
R/W
0
2
46 ADRS 47 FLTR
R/W R/W
1 127 1 16
NOTE1: Device supports 03, 06 and 16 number function of modbus protocol. 03 Read Holding Registers, 06 Write Single Register and 16 Write Multiple Registers.
NOTE2: No Selonoid Voltage alarm is saved in first bit of Alarm Data 17, high pressure alarm is saved in second bit of Alarm Data 17. NOTE3: In table, parameters, whose address is between 17 and 47 is explained in 3.1 PARAMETERS EXPLANATION.
KY-FT10-0324-1
7. TABLES
Table1: Bits of Alarm Data
SOSOSOSOSOSOSOSO
Bit Number
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
Alarm Data 1 O8 O7 O6 O5 O4 O3 O2 O1
Alarm Data 2 O16 O15 O14 O13 O12 O11 O10 O9
Alarm Data 3 O24 O23 O22 O21 O20 O19 O18 O17
Alarm Data 4 O32 O31 O30 O29 O28 O27 O26 O25
Alarm Data 5 O40 O39 O38 O37 O36 O35 O34 O33
Alarm Data 6 O48 O47 O46 O45 O44 O43 O42 O41
Alarm Data 7 O56 O55 O54 O53 O52 O51 O50 O49
Alarm Data 8 O64 O63 O62 O61 O60 O59 O58 O57
Alarm Data 9 O72 O71 O70 O69 O68 O67 O66 O65
Alarm Data 10 O80 O79 O78 O77 O76 O75 O74 O73
Alarm Data 11 O88 O87 O86 O85 O84 O83 O82 O81
Alarm Data 12 O96 O95 O94 O93 O92 O91 O90 O89
Alarm Data 13 O104 O103 O102 O101 O100 O99 O98 O97
Alarm Data 14 O112 O111 O110 O109 O108 O107 O106 O105
Alarm Data 15 O120 O119 O118 O117 O116 O115 O114 O113
Alarm Data 16 O128 O127 O126 O125 O124 O123 O122 O121
NOTE: In table, S letter is shown short circuit state, O letter is shown open circuit state.
Table2: CTYP
None No Control Onof ON/OFF Control Prop Proportional Control
Table3: mar
0-20 0-20 mA 20-0 20-0 mA 4-20 4-20 mA 20-4 20-4 mA
Table4: RXTP
No Normally open Nc Normally closed
Table5: RXKB
On Acknowledge alarm is active Off Acknowledge alarm isn’t active
Table6: TATP
On Wait break and pulse time Off Not wait break and pulse time
Table7: Prty
None No parity ODD Odd parity Even Even parity
Manufacturer / Technical Support Elimko Elektronik malat ve Kontrol Ltd. ti. ASO 2. Organize Sanayi Bölgesi Alci OSB Mahallesi 2001. Cad. No:14 Temelli 06909 Ankara / TURKYE Tel: +90 312 212 64 50 (Pbx) · Fax: +90 312 212 41 43 E-mail: elimko@elimko.com.tr · www.elimko.com.tr
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Documents / Resources
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Elimko FT-10 Filter Timer [pdf] User Manual FT-10, FT-10 Filter Timer, Filter Timer, Timer |