ITC WTRTEC Green Bedienungsanleitung
WTRTEC
ENGLISH
CONTENTS
1. GENERAL DESCRIPTION 4
2. TRANSPORT AND HANDLING 4
3. TECHNICAL SPECIFICATIONS 5
4. OPERATION 6
4.1 Main screen and navigation 6
4.2 Setpoint conguration 7
4.3 Calibration 7
4.3.1 EC calibration 7
4.3.2 pH calibration 8
4.3.3 Flow rate calibration 8
4.4 Control conguration 9
4.4.1. Activation of the control 9
4.4.2. Advanced control conguration. PI control 10
4.5 Alarms 12
4.5.1 EC and pH alarms 12
4.5.2 Zero ow alarm 13
4.5.3 Flow detector alarm 13
4.6 Conguration of the register outputs 14
4.7 Conguration and monitor 14
4.7.1 Initial conguration (SET UP) 15
4.7.2 Communications settings 15
4.7.3 Information on the unit and monitor 16
5. INSTALLATION 17
5.1. Installation diagram 17
5.2. Wiring 18
5.3. Remote start/stop activation 19
To avoid personal injury risks and damage to the environment, and to ensure proper
equipment operation, personnel responsible for installing, commissioning and maintaining the
equipment must follow the instructions in this manual, with special attention to the detailed
recommendations and warnings. The specic instructions for the use of the chemicals to be
dosed must also be followed.
SAFETY INSTRUCTIONS
6. START UP AND ADJUSTMENT 20
7. MAINTENANCE 21
CE DECLARATION OF CONFORMITY 23
WARRANTY 23
4
Product description
1. GENERAL DESCRIPTION
WTRTEC Green is a high-precision pH, conductivity and proportional dosing controller that at the same
time is simple to install and operate. It is specially designed for processes such as fertigation, where
correction of pH and EC is needed.
The WTRTEC controller enables monitoring of ow, pH and EC, as well as their adjustment through
analogue and digital control outputs for dosing pumps. The analogue output (4-20 mA) control is specially
designed to provide in-line control adapted to ow rate changes (PIQ).
The WTRTEC enables remote monitoring and management by means of a mobile/web application.
A communications Gate (Ref. 01-006) is needed for this, which can be connected to the internet by
Ethernet or 3G/4G.
2. TRANSPORT AND HANDLING
The original packaging is designed to allow the equipment to be transported and stored without damage,
provided this takes place in dry, ventilated spaces away from heat sources.
Included in the packaging are:
- WTRTEC
- Instruction manual
INSTALLATION DIAGRAM
Communications
gate
(Ref. 01-006)
0
mS
2.5
PH
m3h 10.5
7.6
1
001
ºC 21.0
INTERNET
5
Product description
3. TECHNICAL SPECIFICATIONS
Power supply: 100-240 V 50-60 Hz. 10.8-14.4 VDC
Power: 6 W
IP65 protection
Housing material: ABS
Working temperature: 0 - 45 °C / 32 - 113 °F
Maximum relative humidity: 95% without condensation
Dimensions
Inputs
Flow meter 0.00-9999 m3/h / gph NPN isolated
Flow meter (power supply) 12 VDC (100 mA)
EC sensor 0.00-10.00 mS Isolated
EC temperature sensor 0.0 - 100ºC / 32.0 - 212 F NTC
pH sensor 0.00 - 14.00 Isolated
pH/EC temperature sensor 0.0 - 100ºC / 32.0 - 212 F PT100
Remote input ON/OFF 12-24 V AC/DC
Flow detector ON/OFF NPN isolated
Outputs
Relay 1 Alarm N.A. 230 V AC 1 A
Relay 2 Alarm N.A. 230 V AC 1 A
Relay 3 Alarm N.A. 230 V AC 1 A
Relay 4 Control N.A. 230 V AC 1 A
Relay 5 Control N.A. 230 V AC 1 A
4-20 mA 1 Control or record max. 520 Ohms
4-20 mA 2 Control or record max. 520 Ohms
Communications
RS485 port ModBus
mm inch
A229 9.02
B225 8.86
C119 4.69
A
B
C
6
Conguration
2.50 SP 2.00
032%
pH 7.60 SP 7.00
021%
m3h 10.5
CONFIG 21.3ºC
mS
2.50 SP 2.00
032%
pH 7.60 SP 7.00
021%
m3h 10.5
CONFIG 21.3ºC
mS
4. OPERATION
4.1 Main screen and navigation
Conrm
Exit without
conrming
Increase / decrease value,
and move up /down
Move left / right
ENT
ENT
ESC
0
mS
2.5
PH
m3h 10.5
7.6
1
001
ºC 21.0
0
mS
2.5
PH
m3h 10.5
7.6
1
001
ºC 21.0
Control
parameter 1
EC (or ow
rate)
Regulation
output
EC setpoint
value Move the cursor to select the following menu:
mS, pH, m3h or CONFIG, and enter with
ENTER
Warnings on the main screen:
Flashing reading: parameter alarm
Flashing regulation output: no device detected on the 4-20 mA output
Flashing regulation outputs (both): remote control deactivated, or no
device connected to the 4-20 mA outputs
Press ENTER to edit the setpoint
or move the cursor to enter the
following menu:
CAL: Calibration
CONTROL: control output
ALARM: alarms
REGISTER: output for register
pH regulation
output
Flow rate (or EC) reading
Access to the Conguration menu
Calibration menu
Alarm menu
Control menu
Register menu
Temperature
Cursor
Control
parameter 2
pH
mS
pH
pH
CAL
CONTROL
ALARM
REGISTER
SP 07.00
PH CAL.
Point 1 07.00
Point 2 04.00
Reading 07.23
PH CONTROL
CONTROL
PI CONTROL
PH ALARM
Rearm: Yes; No
Stop: pH; All; None
pH + 1.00 025 s
pH - 0.50 060 s
PH REGISTER
Out: 4-20 mA 2
4 mA: 00.00
20 mA: 14.00
7
Conguration
2.50 SP 2.00
032%
pH 7.60 SP 7.00
021%
m3h 10.5
CONFIG 21.3ºC
mS
2.50 SP 2.00
032%
pH 7.60 SP 7.00
021%
m3h 10.5
CONFIG 21.3ºC
mS
2.50 SP 2.00
032%
pH 7.60 SP 7.00
021%
m3h 10.5
CONFIG 21.3ºC
mS
ENT
ENT
ENT
ENT ENT
mS
pH
pH
CAL
CONTROL
ALARM
REGISTER
SP 07.00
4.2 Setpoint conguration
Conguration of the desired EC, pH or % values for the two channels for control through values or
setpoints.
Choose the control parameter for channel 1 between dosing by EC setpoint (mS) or by proportionality
value (%) of the product to be dosed with the irrigation water. Parameter selection is performed by
activating the control through the selected parameter’s Control menu. The parameter not selected for
control will remain as additional information and will be displayed in the lower right quadrant of the main
screen.
The second control channel is for pH.
To enter the setpoint:
m3h
CAL
CONTROL
ALARM
ALARM DETECTOR
REGISTER
0.20 %
SP
mS
CAL
CONTROL
ALARM
REGISTER
SP 02.00
change the value with the up/down
arrows and conrm with ENT
change the value with the up/down
arrows and conrm with ENT
change the value with the up/down
arrows and conrm with ENTER
If necessary, modify the value for the EC calibration standard using the up/down arrows. Insert the sensor
into the standard solution, wait until the sensor reading is stable and conrm with ENTER. If you are not
sure of the calibration, you can exit without conrming by pressing ESCAPE. The zero point is factory
calibrated.
4.3 Calibration
Calibration of the sensors used for EC, pH and ow. The calibration menu is in each parameter menu.
4.3.1 EC calibration
EC CAL.
ENT ENT
mS SP 02.00
CAL
CONTROL
ALARM
REGISTER
EC CAL.
Point 1 01.41 mS
Reading 01.37 mS
Point 1 01.41 mS
Reading 01.37 mS
m3h
8
Conguration
4.3.2 pH calibration
4.3.3 Flow rate calibration
ENT
ENT
ENT
pH
CONTROL
ALARM
REGISTER
SP 07.00
PH CAL.
Point 1 07.00
Point 2 04.00
Reading 07.23
PH CAL.
Point 1 07.00
Point 2 04.00
Reading 07.23
If necessary for pH calibration point 1, modify the buer value using the up/down arrows. Insert the sensor
into the point 1 buer, wait until the sensor reading is stable and conrm with ENTER.
Repeat the operation with the point 2 buer. Before putting the sensor in the point 2 buer, clean the
sensor with distilled water and dry it well (with tissue paper) to avoid contamination of the buer. If at any
time during the calibration process you are not sure of the calibration, you can exit without conrming by
pressing ESCAPE.
CAL
m3h 0.20 %
SP
CAL
CONTROL
ALARM
ALARM DETECTOR
REGISTER
Q CAL.
Type: Low Freq
K: 5.00 l/p
Time Q=0: 015 s
Select the type of ow meter:
- Low Freq:
Low frequency ow meter. Flow meters with pulse frequencies of between a minimum of 1 pulse every
200 seconds and a maximum of 30 pulses per second (30 Hz).
- K (l/p):
This type of ow meter requires entry of the conguration value the manufacturer indicates in litres/pulse.
- Time Q=0:
In these ow meters, which calculate the ow rate from the time between two consecutive pulses, a wait
time from which the ow rate is considered to be zero needs to be dened.
- High Freq:
High frequency ow meter for Hall eect or electromagnetic insertion ow meters with a maximum of
300 Hz (300 pulses per second).
- K-factor (p/l):
This type of ow meter requires entry of the K-factor (pulses/litre), corresponding to the diameter where it
is installed. This value is supplied by the manufacturer.
9
Conguration
4.4 Control conguration
4.4.1. Activation of the control
Activate control in the two parameters chosen for the regulation.
mS SP 02.00
CAL
CONTROL
ALARM
REGISTER
ENTENT
EC CONTROL
CONTROL
PI CONTROL
EC CONTROL
Control: OFF
Out: 4-20 mA 2
Limit out: 080%
Pump: 200 l/h
ENT
m3h 0.20 %
SP
CAL
CONTROL
ALARM
ALARM DETECTOR
REGISTER
Q CONTROL
Control: OFF
Out: 4-20 mA 2
Limit out: 080%
Pump: 200 l/h
ENTENT
pH SP 07.00
CAL
CONTROL
ALARM
REGISTER
PH CONTROL
CONTROL
PI CONTROL
PH CONTROL
Control: OFF
Out: 4-20 mA 1
Limit out: 080%
Pump: 20 l/h
For fertiliser dosing, choose between the options:
- Flow Rate control (proportionality):
Dosing will be regulated depending on the % value entered as the setpoint value, representing the
percentage of product ow rate dosed with respect to the main water pipe ow rate.
- EC control:
Dosing will be regulated automatically to adjust the conductivity reading to the value entered as the EC
setpoint.
- EC control with ow rate adjustment:
Activate the EC control and set the PEC value (%) in the PI Control menu to set an initial proportionality
value that the controller will regulate automatically to adjust to the EC setpoint.
For acid or base dosing for pH regulation:
- Control in pH:
Dosing will be regulated automatically to adjust the pH reading to the value entered as the pH setpoint.
10
Conguration
OFF
ON
5’
025% 50% 75% 10’
Salida al 100%
25% 50% 75%
Salida al 25%
OFF
ON
5’
025% 50% 75% 10’
25% 50% 75%
The regulating output will need to be selected for each control channel:
- Out:
Choose between the two 4-20 mA channels for analogue regulation or between the relay outputs for ON/
OFF regulation.
EC CONTROL
CONTROL
PI CONTROL
PH CONTROL
CONTROL
PI CONTROL
ENT
ENT
EC PI CONTROL
PIQ (PEC): 1.50
Kp:20
Ki:
30
T delay (s): 015
Q test: 00.00 m3h
PH PI CONTROL
PIQ (PpH)
030
Kp: 20
Ki:
30
T delay: 020 s
Q test: 00.00 m3h
Out = 4-20mA. For in-line process control. This is more precise regulation, which requires a pump with a
4-20 mA analogue input, such as a Dositec mA, Dostec AC or Dostec with variable frequency drive.
Out = Relay. For control in a recirculating tank. The regulating output establishes 5-minute cycles in
which the output will be ON for the proportional part of the time corresponding to PI adjustment.
- Limit out:
If a 4-20 mA output is used, this parameter allows you to limit the output value so as to limit the maximum
dosing pump ow rate.
- Pump:
Enter the rated dosing pump ow rate to record the dosed ow rate in the data logger.
4.4.2. Advanced control conguration. PI control
For adjustment of EC and pH, the control system operates using a PI algorithm. The setting parameters
for this control are in the PI CONTROL menu
- PIQ (PEC):
The PIQ control mode to adjust EC is a PI algorithm conditioned on the ow rate of water to be treated.
Initial dosing proportional to the water rate in % is set using the PEC parameter, and is subsequently
corrected by means of a PI approximation curve. This system combines the benets of proportional
dosing and EC setpoint dosing, ensuring stability
Inhaltsverzeichnis
Andere ITC Controller Handbücher
Beliebte Controller Handbücher anderer Marken
ABB
ABB ACS580-01 drives Bedienungsanleitung
Panasonic
Panasonic GM1 Series Bedienungsanleitung
Emerson
Emerson SW93 Bedienungsanleitung
AutoAqua
AutoAqua Smart ATO micro SATO-120P Bedienungsanleitung
Panasonic
Panasonic FP? Positioning Unit RTEX Bedienungsanleitung
Alpha IP
Alpha IP MIOB 21001 Bedienungsanleitung
