ProMinent Splash Control Pro 2 Assembly And Operating Instructions Manual
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ProMinent Splash Control Pro 2 Assembly And Operating Instructions Manual

ProMinent Splash Control Pro 2 Assembly And Operating Instructions Manual

Swimming pool controller
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Assembly and operating instructions
Splash Control Pro 2
Swimming pool controller
EN
A3207
Please carefully read these operating instructions before use. · Do not discard.
The operator shall be liable for any damage caused by installation or operating errors.
The latest version of the operating instructions are available on our homepage.
Part number: 981009
Target group: instructed personnel
Version: BA DM 237 11/20 EN

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  • Page 1 Assembly and operating instructions Splash Control Pro 2 Swimming pool controller A3207 Please carefully read these operating instructions before use. · Do not discard. The operator shall be liable for any damage caused by installation or operating errors. The latest version of the operating instructions are available on our homepage.
  • Page 2 Supplemental directives General non-discriminatory approach In order to make it easier to read, this document uses the male form in grammatical structures but with an implied neutral sense. The document is always aimed equally at women, men and gender-neutral persons. We kindly ask readers for their under‐ standing in this simplification of the text.

  • Page 3: Table Of Contents

    Table of contents Table of contents Functional description............6 1.1 Nameplate..............10 Safety and responsibility............. 11 2.1 Labelling of Warning Information........ 11 2.2 General safety information.......... 12 2.3 Intended Use.............. 13 2.4 User qualification............14 Storage and transport............15 Installation and assembly............ 16 4.1 Ambient Conditions for Operation.......
  • Page 4 Table of contents 8.1.1 ‘Options’ menu............80 ‘Inputs’ menu............81 8.1.2 8.1.3 Menu: Configuration and installation of the out‐ puts................87 8.1.4 Menu: Configuration and installation of the CONDI‐ TIONS..............92 8.1.5 Menu: Setting up communication ‘COMMUNICATION’ ..........94 8.1.6 Menu: Configuration and installation of ”Factory Reset”..............
  • Page 5 Table of contents Replacement of back-up battery........121 Installation of the secondary module........ 122 Technical data..............123 DUMMY CE Declaration........... 125 Index................. 126...

  • Page 6: Functional Description

    Functional description Functional description The swimming pool controller was designed to measure and con‐ trol temperature, pH, chlorine or bromine values using sensors and the control in conjunction with the corresponding adjustable com‐ ponents of the entire system. The swimming pool controller will henceforth be referred to as the ‘controller’...
  • Page 7 Functional description Designation Function Description Configuration Selection of standard config‐ Automatic set-up of the machine. uration Maintenance Support with maintenance Control of regulation device.
  • Page 8 Functional description Measuring parameters, measuring scales and adjustment ranges Parameter Measuring scale Customer measuring Precision scale Temperature: -5 ... 45°C ± 0.5% 0 ... 100 °C ± 0.5% -10 ... 100°C ± 0.5% pH value: 0 ... 14 pH value ±...
  • Page 9 Functional description Parameter Measuring scale Customer measuring Precision scale 0 ... 2000 mg/l ± 0.5% BCDMH: 0.02 ... 2 mg/l ± 0.5% 0.2 ... 10 mg/l ± 0.5% 0.4 ... 15 mg/l ± 0.5% 0 ... 2000 mg/l ± 0.5% DBDMH: 0.1 ...

  • Page 10: Nameplate

    Functional description 1.1 Nameplate Splash Control Pro 2 13044217 S/N : PN#1101166 Pumps feed 2,4 l/h 230VAC 50/60Hz 0,25 A IP65 Fab 56547110815878 Hergestellt in A2985 Fig. 2: The nameplate is located on the housing of the controller QR code...

  • Page 11: Safety And Responsibility

    Safety and responsibility Safety and responsibility 2.1 Labelling of Warning Information Introduction These operating instructions provide information on the technical data and functions of the product. These operating instructions pro‐ vide detailed warning information and are provided as clear step- by-step instructions.

  • Page 12: General Safety Information

    Safety and responsibility Type of information Hints on use and additional information. Source of the information. Additional measures. Denotes hints on use and other useful informa‐ – tion. It does not indicate a hazardous or dam‐ aging situation. 2.2 General safety information WARNING! Danger from hazardous substances! Possible consequence: Fatal or very serious inju‐...

  • Page 13: Intended Use

    Safety and responsibility 2.3 Intended Use Intended Use The device is intended for measuring and regu‐ lating liquid media. The designated measured vari‐ ables appear on the device's display and are abso‐ lutely binding. Only use the device in accordance with the tech‐ nical data and specifications outlined in these operating instructions and in the operating instruc‐...

  • Page 14: User Qualification

    Safety and responsibility 2.4 User qualification WARNING! Danger of injury with inadequately qualified per‐ sonnel The operator of the system / equipment is respon‐ sible for ensuring that the qualifications are ful‐ filled. If inadequately qualified personnel work on the unit or loiter in the hazard zone of the unit, this could result in dangers that could cause serious injuries and material damage.

  • Page 15: Storage And Transport

    Storage and transport Storage and transport User qualifications, storage and transport: trained personnel Ä Chapter 2.4 ‘User qualification’ on page 14 Ambient conditions for storage and transport: Temperature: -10 to + 70 °C, Air humidity: < 90 % relative air humidity (non-condensing). Packaging material Dispose of packaging material in an environmen‐...

  • Page 16: Installation And Assembly

    Installation and assembly Installation and assembly User qualification, mechanical installation: trained and qualified Ä Chapter 2.4 ‘User qualification’ on page 14 personnel User qualification, electrical installation: Electrical technician Ä Chapter 2.4 ‘User qualification’ on page 14 4.1 Ambient Conditions for Operation Ambient conditions for operation Temperature: 0 °C ...

  • Page 17: Installation On The Wall

    Installation and assembly 4.3.1 Installation on the wall Drill 3 Ø 5 mm holes as per the following drawing. 242 mm A2986 Fig. 3: The diagram is not true to scale! First screw in the upper screw, without tightening it fully. Then screw in the lower screws and tighten them.

  • Page 18: Opening/Closing The Terminal Cover

    Installation and assembly The transparent cover is now locked in place. 4.3.3 Opening/closing the terminal cover To guarantee degree of protection IP65, it is essential that the ter‐ minal cover is closed after use, and the quality of the closure seal must be guaranteed.

  • Page 19: Primary Power Supply

    Installation and assembly A2995 Fig. 6: 4 screws Use an appropriate screwdriver to loosen the 4 screws. Disconnect the connecting ribbon cable between the lower circuit board and the upper part of the device. A2996 Fig. 7: Fuse (F1 or F2) Look for the fuse to be replaced (F1 or F2) on the lower cir‐...

  • Page 20: Measuring Input Connections

    Installation and assembly A2997 Fig. 8: Primary power supply Guide the cable through a suitable cable gland. Connect the phase to L1 and the neutral conductor to the N of the main terminal X1. Use an M4 eyelet clamp to connect the earth to the PL1 bolt. Tighten the cable gland to make a seal.
  • Page 21 Installation and assembly Connecting the sensors Connecting the sensor to PI1: Use a coaxial cable. Connect the cable lead to the connector Pot (1). Connect the shielding to the connector Ref (2). Tighten the cable gland to form a seal. Connecting the sensor to PI2: Use a coaxial cable.
  • Page 22 Installation and assembly 0.01... 0.1...1 0.02... 0.1...5 0.2...1 0.4...1 0.2...2 0.5...5 1...10 2...20 20...2 Cus‐ mg/l 2 mg/l mg/l 0 mg/l 5 mg/l 0 mg/l 0 mg/l 0 mg/l 0 mg/l tomer mg/l mg/l Free -• -• -• -• bro‐ mine Per‐...
  • Page 23 Installation and assembly Tab. 5: The supported sensors are defined as follows: -5 … +45 °C Customer* Temperature -• -• (*): The customer’s scale can be defined between -10 ... 100 °C. Tab. 6: The supported sensors are defined as follows: 0 ...
  • Page 24 Installation and assembly Tighten the cable gland to form a seal. Digital inputs DI1 ... DI4 The controller has 4 digital inputs to which a tank floor, a flow or another sensor or an R.I.C. (Remote Input Control) can be con‐ nected.
  • Page 25 Installation and assembly Connection of a flow switch sensor to DI2: A3006 Fig. 15: Connection of a flow switch sensor to DI2 Remove the protective sleeve of the cable. Strip away 7 mm of the insulation on the leads. Guide the cable through the cable gland. Connect the brown lead to DI2 (Plus) (33).

  • Page 26: Connectors For Self-Fed Relay Outputs (Po1 And Po2)

    Installation and assembly 4.3.8 Connectors for self-fed relay outputs (PO1 and PO2) The self-fed PO1 output relay output (primary power supply = voltage available at P3) can be used for metering, alarm, timer... A3008 Fig. 17: Connectors for self-fed relay outputs (PO1 and PO2) Strip away 7 mm of the insulation on the 3 leads of the power cable of the device.

  • Page 27: Potential-Free Relay Connections (Fo1 And Fo2)

    Installation and assembly 4.3.9 Potential-free relay connections (FO1 and FO2) The potential-free relay outputs can be controlled as alarm relays, for control or in timer mode, as required. A3011 Fig. 20: Potential-free relay connections (FO1 and FO2) Use a 2-lead cable designed appropriately for use for voltage and power.

  • Page 28: Electronic Relay Outputs (Ro1 And Ro2)

    Installation and assembly 4.3.10 Electronic relay outputs (RO1 and RO2) The electronic relay outputs are primarily intended for the control of the metering pumps in pulse mode. The electronic relay outputs can also act as alarm relays, or be controlled in timer mode, as required.
  • Page 29 Installation and assembly A3017 Fig. 26: 4 ... 20 mA output connectors (AO1 ... AO4) Output Lead, plus Lead, minus Assignment: Ä Further information on page 28 Use a 2-lead cable designed appropriately for use for voltage and power. Remove the protective sleeve of the cable. Strip away 7 mm of the insulation on the leads.

  • Page 30: Commissioning

    Commissioning Commissioning Ä Chapter 2.4 User qualification, commissioning: trained user ‘User qualification’ on page 14 The device does not automatically start treating and metering the chemical product when you switch on the device. Only the user can initiate operation once they have made sure that the control unit is programmed in accordance with their needs.

  • Page 31: Operating Concept And Operation

    Operating concept and operation Operating concept and operation Ä Chapter 2.4 ‘User User qualification, operation: trained user qualification’ on page 14 The device is equipped with a colour touchscreen, which can be used to perform all programming actions by pressing the screen. The touchscreen is a resistive touchscreen.
  • Page 32 Operating concept and operation pH value Temperature °C Free chlorine Monday October 2020 Brussels, Copenhagen, Heidelberg A3023 Fig. 29: Input mode pH value Temperature °C Free chlorine Monday October 2020 Brussels, Copenhagen, Heidelberg A3024 Fig. 30: Main controls/disabled elements are greyed out. Status: ON / OFF Key: to the preview screen Date and time...
  • Page 33 Operating concept and operation Communication information A3025 Fig. 31: Information on the communication interfaces A3026 Fig. 32: Display of the outputs Relay output not used Relay output in metering mode* Relay output on the timer Relay output with alarm Relay output on the lower storage tank Relay output on water circulation Relay output on contact Relay output with flow...
  • Page 34 Operating concept and operation Protective fuse out of action The self-fed PO1 and PO2 relays have a TR5 fuse. If a fuse is destroyed, a special symbol (see figure opposite) appears on the relevant output. A3028 Fig. 34: Protective fuse out of action 4 ...
  • Page 35 Operating concept and operation Issuing information Controlled output relay Mode: Metering Direction: Status: Disabled E1: pH value A3031 Fig. 37: Issuing information When you click on one of the outputs, you obtain information about the programming and the status of the selected output. The infor‐ mation displayed may vary according to the configuration of the outputs.

  • Page 36: Displaying Details On The "Small X6" Channels

    Operating concept and operation 6.1 Displaying details on the “Small x6” channels Details of the measuring channel III. A3033 Fig. 38: Details of the measuring channel illustrated by pH Main group Subgroup Function I: Alarm notifications Technical alarm Measured value too low Measured value too high Disabled setting II: Measured value and units...
  • Page 37 Operating concept and operation Main group Subgroup Function Measured value higher than can be displayed on the scale. Measured value cannot be displayed. Measured value cannot be measured. Technical alarm III: Metering status and capacity No metering system available. Metering is stopped (STOP). Metering is paused.
  • Page 38 Operating concept and operation Details of the volume channel III. A3032 Fig. 39: Details of the volume channel Main group Subgroup Function I: Alarm notifications Technical alarm Measured value too low Measured value too high Disabled setting The feed chemical storage tank is empty. II: Measured value and units Measured value lower than can be displayed on the scale.
  • Page 39 Operating concept and operation Main group Subgroup Function Threshold low / threshold high Measured value Lower limit of metering shutdown, if set IV: Notification area Polarisation is in progress. The sensor is not operating. The sensor must be maintained and serviced. The sensor signal is unstable and fluctuating.
  • Page 40 Operating concept and operation Details of the flow channel III. A3034 Fig. 40: Details of the flow channel Main group Subgroup Function I: Alarm notifications Technical alarm Measured value too low Measured value too high Check the flow or flow volume. Disabled setting II: Measured value and units Measured value lower than can be displayed on the scale.
  • Page 41 Operating concept and operation Main group Subgroup Function Measured value Lower limit of metering shutdown, if set IV: Compensation status and capacity. If set. Compensation status and capacity. If set. Compensation percentage as a %. If the flow is set in the compensation parameter.

  • Page 42: Displaying Details On The "Large X3" Channels

    Operating concept and operation 6.2 Displaying details on the “Large x3” channels Details of the measuring channel III. A3036 Fig. 42: Details of the measuring channel...
  • Page 43 Operating concept and operation Main group Subgroup Function I: Alarm notifications Technical alarm Measured value too low Measured value too high Disabled setting Alarm threshold OFF if not programmed II: Measured value and units Measured value lower than can be displayed on the scale. Measured value higher than can be displayed on the scale.
  • Page 44 Operating concept and operation Details of the volume channel III. A3037 Fig. 43: Details of the volume channel Main group Subgroup Function I: Alarm notifications Technical alarm Measured value too low Measured value too high Disabled setting The feed chemical storage tank is empty. II: Measured value and units...
  • Page 45 Operating concept and operation Main group Subgroup Function Measured value lower than can be displayed on the scale. Measured value higher than can be displayed on the scale. Measured value cannot be displayed. Measured value cannot be measured. Technical alarm III: Metering status and capacity Threshold low / threshold high Measured value...
  • Page 46 Operating concept and operation Details of the flow channel III. A3038 Fig. 44: Details of the flow channel Main group Subgroup Function I: Alarm notifications Technical alarm Measured value too low Measured value too high Check the flow or flow volume. Disabled setting II: Measured value and units Measured value lower than can be displayed on the scale.
  • Page 47 Operating concept and operation Main group Subgroup Function Measured value higher than can be displayed on the scale. Measured value cannot be displayed. Measured value cannot be measured. Technical alarm III: Alarm status Threshold low / threshold high Measured value Lower limit of metering shutdown, if set IV: Compensation status and capacity.

  • Page 48: Detailed Display Of A Channel

    Operating concept and operation Time control (widget) A3035 Fig. 45: A3039 Main group Subgroup Function I: Time settings Current local time shift to UTC / GMT Current time in the set format. Display of time in 24-hour or 12-hour a.m./p.m. format. Summer time/winter time: Green: summer time enabled, Grey: winter time enabled,...
  • Page 49 Operating concept and operation Information on s ensor Disable Cancel Scale: 0.00 ..14,00 pH the parameter Raw signal Clear History Alarm threshold Metering Calibration upper Offset max. time Setpoint lower Metering Calibrate A3040 Fig. 46: Detailed view of a channel The values and information are displayed in small miniature views.
  • Page 50 Operating concept and operation Area: Metering List of metrics assigned to the parameter: FO1: output number ▼: feeder assembly PFM: operating mode of the system P.I.D: mode for calculation of metering Setpoint key: used to change the parameter setpoint. Max. time key: used to change the maximum metering time. Area: Alarm threshold List of alarm threshold values: Key: Upper alarm threshold, used to change the upper alarm...

  • Page 51: Input Mode

    Operating concept and operation If an incorrect value is entered or if it is outside the scale, then "Min: 0 ... Max: 14.00" appears red when you press " Enter ". If the value entered is correct, then the "Calibration performed suc‐ cessfully"...
  • Page 52 Operating concept and operation Screen to enter numerical values A3042 Fig. 48: Screen to enter numerical values Designation of the parameters Key: Clear Disable a functional key Key: Cancel Key: Save input (Enter) Key: Negative values Number block Possible Min and Max values Display of the entered value Depending on the values to be entered, some functions may be greyed out because the functions are not used for the expected...
  • Page 53 Operating concept and operation Alphanumeric keyboard A3043 Fig. 49: Alphanumeric keyboard Input field in which the text entered appears. Key for special characters Clear/Back key Key for special characters Key: Save input (Enter) Keyboard type key (AZERTY, QWERTY, Caps Lock QUERTZ...).
  • Page 54 Operating concept and operation Important input elements A3044 Fig. 50: Important input elements Tab. 9: Important input elements Function Open a list. Press this key to open a list. Key with checkbox to enable or disable functions. Disabled. Enabled. Multiple selection version: press the required element to select the element. Status box.
  • Page 55 Operating concept and operation A3045 Fig. 51: Action keys Tab. 10: Action keys Function Use this key to save a configuration. Use this key to clear a configuration. Use this key to return to the previous display. With the "Save" and "Back" keys, when a change is made on a screen, the “Back” key appears orange and the “Save”...
  • Page 56 Operating concept and operation Selection lists Öffnen Sie eine Liste Auswahl Auswahl Element 1 Element 1 Element 2 Element 2 Element 3 Element 3 Element 4 Element 4 Element 5 Element 5 Element 6 Auswahl Auswahl Element 6 Element 10 Element 7 Element 11 Element 8...
  • Page 57 Operating concept and operation Navigation bar A3047 Fig. 53: Navigation bar (example) Menu number Menu, Output relays Menu, Output selection Menu, Installation Main menu Menu, Main screen Main menu Menu, Installation Menu, Output selection In the programming menu, each selection of a function adds a key to the navigation bar.

  • Page 58: Communication Programming Instructions

    Communication programming instructions Communication programming instructions 7.1 Power supply output connector (PWR) If you wish, you can use chlorine or bromine sensors that require an external power supply. A3018 Fig. 54: Power supply output connector (PWR) DWR equipment Use a 2-lead cable designed appropriately for use for voltage and power.
  • Page 59 Communication programming instructions Connection to the USB port of a com‐ puter Note the cabling of the bus system. A3019 Fig. 55: Connection to the USB port of a computer Blue (terminal no. 3): White (terminal no. 4): Black (terminal no. 5): Configuration: All switches (1) to "ON".

  • Page 60: Internal Gsm Modem Connector

    Communication programming instructions Terminal RS RS minus (B) RS plus (A) The bus can be poled from your device if necessary. To do so, switch the two microswitches (RS+ (A) and RS- (B)) on the elec‐ tronic plug-in card to the ON position If your device is the last device on the line of the RS485 bus, you can switch over the RS terminal.

  • Page 61: Ethernet Modem Connector

    Communication programming instructions 7.4 Ethernet modem connector A3054 Fig. 58: Ethernet modem connector Cable: Green/White Cable: Green Cable: Orange/White Cable: Orange Cable: Blue/White Cable: Blue Cable: Brown/White Cable: Brown Cable: Earthing 10 Connecting cable to the network 11 Ethernet modem Install the Ethernet modem (11) at its intended position.

  • Page 62: Modbus Configuration [1731]

    Communication programming instructions The Ethernet is not yet available. The MODEM ETHERNET and MODBUS SLAVES keys are each accessible depending on the communication configuration. 7.5.1 Modbus configuration [1731] Press the Modbus symbol (l.) to open the following screen. Modbus settings Modbus on RS485 Modbus TCP Modbus RTU...

  • Page 63: Wi-Fi Configuration [2731]

    Communication programming instructions Modbus via RS485 Modbus RTU Selection of Modbus communication mode: this selection button provides information on the selected mode (RTU). Press to change the Modbus communication mode. Speed 19200 Selection of Modbus communication speed: this selection button provides information on the selected speed (19200). Press this key to change the speed.
  • Page 64 Communication programming instructions WIFI WIFI settings WIFI enabled SSID Security DHCP enabled Automatic DNS 4.7.1.1.0.8.1.5 8.8.8.8. IP address Preferred DNS Mask 255.255.255.255.0 Auxiliary DNS 8.8.4.4. Gateway 0.0.0.0.0 A3057 Fig. 61: Wi-Fi configuration [2731] Wi-Fi enabled Enable the Wi-Fi built into your device. The Wi-Fi module is enabled when the checkbox is highlighted.

  • Page 65: Ethernet Modem Configuration [3731]

    Communication programming instructions Mask If you disable DHCP, you need to enter the subnet mask of your network. Press the key to open the numeric keyboard and enter the required value. Gateway If you disable DHCP, you need to enter the gateway of your network.

  • Page 66: Mysyclope Configuration [5731]

    Communication programming instructions Internet web service Web parameter Automatic time setting (internet connection needed) Adjust SNTP server # 1 Adjust SNTP server # 2 A3058 Fig. 62: Internet and web server configuration [4731] Automatic time setting When this option is enabled, your regulatory authority will peri‐ odically check the time on the internet using the SNTP pro‐...

  • Page 67: Ethernet Modem Configuration [6731]

    Communication programming instructions mysyclope Mysyclope settings Server display field www.mysyclope.com Port 18882 Remote code 1234 Connection APN-GSM connection A3059 Fig. 63: MYSYCLOPE configuration [5731] Server address www.mysyclope.com Input of the address of the mysyclope web server. Here is the address (www.mysyclope.com). Press the key (www.mysyclope.com) to open the alphanumeric keyboard and enter the required value.
  • Page 68 Communication programming instructions MODEM ETHERNET TCP/IP settings DHCP enabled: Automatic DNS IP Address 8.8.8.8.8.8 Preferred DNS Mask 8.8.4.4 Auxiliary DNS Gate A3060 Fig. 64: Ethernet modem configuration [6731] DHCP enabled Selection of the DHCP configuration of your network. Press the key to ENABLE/DISABLE DNS. IP Address If you disable DHCP, you need to enter the fixed IP address of your device.

  • Page 69: Modbus Slave Configuration [7731]

    Communication programming instructions 7.5.7 Modbus slave configuration [7731] Press Modbus slave to open the following screen. Modbus Slave Slave configuration Slave type CONTROLLER Address Slave type None Address Test Slave type None Address Test Slave type None Address Test A3061 Fig.

  • Page 70: Modbus Communication Register

    Communication programming instructions Communication INFO Communication information PIN: PIN OK SSID: Rooftop pool Not available Status: Connected Status: Connected Signal: Very good Signal: Medium Unique ID 00:00:F3:EB:35:E5 Network: F SFR Hose name: ODT_W194120974 APN: Dietmar-Berger.office DHCP enabled: YES IP address: 10.10.1.91 Screen 255.255.255.0 Gateway...
  • Page 71 Communication programming instructions Some software and Modbus controllers use an address between 0 ... 65535. The Modbus register 40001 thus corresponds to the Modbus address 0, the register 40002 corresponds to address 1 and so on and so forth. Tab. 11: Address of the Modbus register Modbus reg‐...
  • Page 72 Communication programming instructions Modbus reg‐ Number of Name Access Format Description ister registers 41077 Zustand_HO2 BOOL 0 = Outside of the range / 1 = Within the range (schedule) 41078 Zustand_HO3 BOOL 0 = Outside of the range / 1 = Within the range (schedule) 41079 Zustand_HO4...
  • Page 73 Communication programming instructions Modbus reg‐ Number of Name Access Format Description ister registers 41305 param_E3_Kon‐ REAL Control setpoint [unit of trolle_w measure] 41307 param_E3_dosage REAL Metering control [1/1] 41309 param_E3_alarm_ REAL High alarm value [unit of hoch measure] 41311 param_E3_alarm_ REAL Low alarm value [unit of niedrig...
  • Page 74 Communication programming instructions Modbus reg‐ Number of Name Access Format Description ister registers 41507 param_E7_dosage REAL Metering control [1/1] 41509 param_E7_alarm_ REAL High alarm value [unit of hoch measure] 41511 param_E7_alarm_ REAL Low alarm value [unit of niedrig measure] 41551 param_E8_state DWORD Compare with Param State...
  • Page 75 Communication programming instructions Modbus reg‐ Number of Name Access Format Description ister registers 42501 param_E3 STRUC‐ E3 channels statuses and TURE value 42701 param_E4 STRUC‐ E4 channels statuses and TURE value 42901 param_E5 STRUC‐ E5 channel statuses and TURE value 43101 param_E6 STRUC‐...

  • Page 76: Data Formatting

    Communication programming instructions Modbus reg‐ Number of Name Access Format Description ister registers 46401 Relais_PO2 STRUC‐ Statuses and value of the TURE PO2 relay 46501 Relais_FO1 STRUC‐ FO1 relay statuses and value TURE 46601 Relais_FO2 STRUC‐ FO2 relay statuses and values TURE 46701 Relais_RO1...
  • Page 77 Communication programming instructions REAL "REAL" uses 2 registers and allows the coding of floating point numbers to 32 bits. Example: Register 41303 is the measured value of channel E03: the unit of this value is the unit selected in the measuring menu of the device.
  • Page 78 Communication programming instructions Bit 16 = 1: Dosing tank empty Bit 17 at 31 = X: Internal operating information, 'random' values...

  • Page 79: Setting Measuring And Control Parameters

    Setting measuring and control parameters Setting measuring and control parameters User qualification, setting measuring and control parameters: Ä Chapter 2.4 ‘User qualification’ on page 14 trained user General menu Menu Menu Menu User Set-up Software version: X.XX Serial number: 2047000815 A3087 Fig.

  • Page 80: Options' Menu

    Setting measuring and control parameters Calculating ‘Calculating measurements’ menu lets you measure‐ access the options available in the installation part. ments ‘Outputs’ menu lets you access the options Outputs available in the installation part. ‘Conditions’ menu lets you access the options Conditions available in the installation part.

  • Page 81: Inputs' Menu

    Setting measuring and control parameters Menu item Function Enable the extended configura‐ This option provides access to the special current settings. It is then pos‐ tion of the 4 ... 20 mA outputs. sible to define the current generated in two special cases: In metering mode: Error current, Current across the range.
  • Page 82 Setting measuring and control parameters 8.1.2.1 General input symbols A3113 Fig. 69: General symbols Unused entry Input with a potentiometric sensor Input with a 4 ... 20 mA sensor Input with a volume sensor Input with a flow sensor Input with a flow switch Enter R.I.C.
  • Page 83 Setting measuring and control parameters 8.1.2.3 Configuration of the digital input You can configure the digital inputs here. Press the selection button to be set and set the respective input within the possible parameters. To remove a sensor from the selection: select " NO " from the sensor list and save your configuration by pressing "SAVE".
  • Page 84 Setting measuring and control parameters Timer settings Timer inputs Do not use timer Not used Not used Not used Not used Not used Not used Not used A3117 Fig. 73: Menu: ‘TIMERS’ configuration and installation The screen displays the configured and unused timers. Configure your installation by pressing a timer already configured, changing its configuration or pressing a timer not used.
  • Page 85 Setting measuring and control parameters The sequence of parameters is totally independent of the ‘Automatically create a parameter sequence of the sensors. If the for each sensor’ option is enabled, the sequence of the parame‐ ters created corresponds to the sequence in which you have added and configured your sensors.
  • Page 86 Setting measuring and control parameters Select the sensor type to which the measurement is to be assigned. This selection button provides information on the type (e.g. Free chlorine) and input (e.g. AI1). Press this key to change the parameters. 8.1.2.7 Temperature compensation (pH or conductivity) The pH measurement is dependent on the temperature of the sample medium.

  • Page 87: Menu: Configuration And Installation Of The Outputs

    Setting measuring and control parameters Temperature sensor: the pH measurement is dependent on the temperature of the sample medium. You have the option of selecting a temperature sensor (if one is installed) under ‘Temperature compensation’ . The temperature sensor is used to adjust the measurement, correlated to the temperature of the sample medium.
  • Page 88 Setting measuring and control parameters Relay output setting PO1 function – Metering Assignment of pH Mode (On/Off) Lower metering direction A3126 Fig. 79: Relay outputs in metering (On/Off) control mode 8.1.3.2 Relay outputs in PWM metering mode (pulse width modulation) Relay output setting PO1 function –...
  • Page 89 Setting measuring and control parameters ‘Minimum metering range 0 %’ : Enter the value of the requirement as a minimum % of the metering range for which this relay is to operate. The current value here is 0. Possible setting of 0 ... 100%. ‘Maximum metering range 100 %’...
  • Page 90 Setting measuring and control parameters [Pulse Frequency Modulation] 8.1.3.3 Relay outputs in PFM metering mode Relay output setting Assignment of pH PO1 function – Metering Metering range PWM mode (pulse width modulation) Minimum Lower metering direction Maximum value Remain active after PWM frequency Pulse/min A3129...
  • Page 91 Setting measuring and control parameters 8.1.3.6 Relay outputs in timer mode Relay output setting P02 function: Timer Duration of the relay status for pulse mode Pause relay status Active (ON) Seconds Inactive (OFF) Seconds A3132 Fig. 85: Relay output in timer mode 8.1.3.7 Outputs 4 ...

  • Page 92: Menu: Configuration And Installation Of The Conditions

    Setting measuring and control parameters Analogue output settings pH assignment Special flows Output range 4 ... 20 mA Limitations: None Error: Lower Outside the range A3134 Fig. 87: Output 4 ... 20 mA in transfer mode 8.1.4 Menu: Configuration and installation of the CONDITIONS ‘CONDITIONS’...
  • Page 93 Setting measuring and control parameters 8.1.4.1 Setting the conditions of a parameter Condition settings Tank base E01 pH value Raise metering Control by external contact Lower metering Control by timer Flow meter E04 Combination of flow detector and flow rate Both One or both clear...

  • Page 94: Menu: Setting Up Communication

    Setting measuring and control parameters Be careful when combining one or more timers, as the function of the parameter is dependent on the time windows. The parameter only functions during the time window. Saving: when a change has been made, the "SAVE" button (disk symbol) appears, which you need to press to save your configura‐...

  • Page 95: Settings' Programming Screen

    Setting measuring and control parameters Initialisation of factory settings Check the configuration to be initialised. User Communication Installation and settings A3050 Fig. 91: Press ‘Save’ to confirm your configuration. Press SAVE to confirm your configuration. - You can reset or not reset the “User”...

  • Page 96: Settings' - 'Options' Menu

    Setting measuring and control parameters ‘Settings’ - ‘OPTIONS’ menu 8.2.1 ‘OPTIONS’ menu lets you access the options available in the installation part. Options for settings Enable the basic load settings for metering Enable the setting function of the maximum dosing time Enable the setting function of the hysteresis alarm threshold Enable the setting function of the manual metering stop in the event of an alarm A3144...

  • Page 97: Hysteresis' Metering Mode

    Setting measuring and control parameters ‘Hysteresis’ metering mode 8.2.3 Setpoint and control settings Hysteresis mode E01 pH value Setpoint Basic load Hysteresis Maximum time Active threshold A3146 Fig. 95: ‘Hysteresis’ metering mode Basic load The basic load is a permanent capacity inde‐ pendent of the metering requirement.

  • Page 98: Threshold Value' Metering Mode

    Setting measuring and control parameters 90 % III. A3149 Fig. 98: ‘Active threshold’ 90 %. Metering requirement parameter. II. No metering time count. III. Metering time count. IV. Reset time to 0. ‘Active threshold’ 90 %: Enter the capacity from which the ‘Active threshold’...

  • Page 99: P.i.d.' Metering Mode

    Setting measuring and control parameters VIII. VII. III. A3151 Fig. 100: Metering mode - ‘Threshold value’ Measure Time III. Time Falling action Rising action Capacity VII. Threshold VIII. Threshold ‘P.I.D.’ metering mode 8.2.5 Setpoint and control settings E01 pH value P.I.D.
  • Page 100 Setting measuring and control parameters A3153 Fig. 102: ‘P.I.D.’ metering mode Parameter Meaning Dead zone Output limit Calculation of the proportion Calculation of the integral Calculation of the derivative Reciprocal proportional value Time of the derivative Control setpoint Measured value Control error Control requirement Metering control...

  • Page 101: Settings' - 'Alarms' Menu

    Setting measuring and control parameters ‘Settings’ - ‘ALARMS’ menu ‘ALARMS’ menu lets you set the parameter operating mode for the alarms. The screen shows the configured settings. You can configure the alarms by pressing an active parameter. Alarm threshold settings Parameter with alarm threshold values pH value Free chlorine...

  • Page 102: Settings' - 'Calibrate' Menu

    Setting measuring and control parameters VIII. VII. III. A3156 Fig. 105: Control characteristic Measure Time Time Time delay Alarm Lower threshold VII. Hysteresis VIII. Hysteresis Upper threshold Hysteresis: This value specifies a value delta in which the alarm remains active. This permits stable alarms when the measured value oscillates around the value of an alarm threshold.

  • Page 103: Standard Version

    Setting measuring and control parameters Flow rate settings pH value Free chlorine Temperature Flow rate A3160 Fig. 106: ‘Settings’ - ‘FLOW RATE’ menu The screen shows the configured parameters for the flow type. You can configure the flow rates by pressing an active parameter. 8.5.1 Standard version Setting the flow threshold E04 Flow...

  • Page 104: Version: Sensors And Parameters

    Setting measuring and control parameters 8.5.2 Version: Sensors and parameters Flow meter settings Parameter with assigned flow sensor Flow rate settings Free chlorine pH value Flow rate Salt content A3162 Fig. 108: Flow meter settings In this example, the pH parameter is influenced by a flow sensor. The flow control threshold setting is specific to the pH parameter.

  • Page 105: Version: Sensors And Parameters

    Setting measuring and control parameters Storage tank liquid level threshold setting E05 Band AI4 Metering stop threshold A3164 Fig. 110: Setting threshold values ‘E05 Band AI4’ : parameter identification. This is where to find parameter number identification (E05); type (liquid level) and asso‐ ciated sensor input (AI4).

  • Page 106: Settings' - 'Transfers 4

    Setting measuring and control parameters ‘Settings’ - ‘TRANSFERS 4 ... 20 mA menu’ ‘TRANSFER’ 4 ... 20 mA menu lets you set the lower and upper threshold of the 4 ... 20 mA values. This menu is only accessible if you have set up a 4 ... 20 mA ‘INSTALLATION’...

  • Page 107: User' Programming Screen

    ‘USER’ programming screen ‘USER’ programming screen User qualification, programming screen: trained user Ä Chapter 2.4 ‘User qualification’ on page 14 ‘USER’ menu lets you access the settings of the graphic inter‐ face. User menu General settings Display Date and time Language Input test Output test...

  • Page 108: Automatic Display

    ‘USER’ programming screen 9.2.1 Automatic display ‘small x6’ ver‐ The controller has two Automatic display modes: a ‘large x3’ version sion that displays 6 parameters per page, and a that displays 3 parameters per page. Change the display mode Mode: Automatic (small x6) A3177 Fig.
  • Page 109 ‘USER’ programming screen Remove Increase Reduce Cancel A3178 Fig. 118: ‘Thumbnails’ menu Remove Delete the selected thumbnail. Increase Enlarge the selected thumbnail. Reduce Reduce the selected thumbnail. Cancel Close the menu.

  • Page 110: User' - 'Date And Time' Menu

    ‘USER’ programming screen ‘User’ - ‘Date and time’ menu Change of date and time parameters Friday September 2020 Automatic time adjustment A3051 Fig. 119: Menu: Date and time ‘Date and time’ menu lets you access the configuration of date and time parameters. Press the clock (6) to change the time.

  • Page 111: User' - 'Language' Menu

    ‘USER’ programming screen ‘User’ - ‘Language’ menu ‘User’ - ‘Language’ menu lets you access the language con‐ figuration of the controller. A3179 Fig. 120: ‘User’ - ‘Language’ menu ‘User’ - ‘USB’ menu ‘USB’ menu lets you update the firmware, or export or import the controller’s configuration.

  • Page 112: User' - 'Inputs Test' Menu

    ‘USER’ programming screen ‘Upload history’ : Not yet available. ‘configuration’ : The button is enabled if a configuration Download ‘Download configuration’ . file is available. Press Download configuration(s) Check the packages to be imported. User Communication Installation and settings A3181 Fig.

  • Page 113: User' - 'Outputs Test' Menu

    ‘USER’ programming screen ‘User’ - ‘OUTPUTS TEST’ menu Outputs test PO1 Metering PO2 Metering FO1 alarm FO2 Not used RO1 Not used RO2 Not used Transfer Not used Not used Not used A3183 Fig. 124: ‘User’ - ‘OUTPUTS TEST’ menu by way of example ‘...

  • Page 114: Calibrating Sensors

    Calibrating sensors Calibrating sensors Ä Chapter 2.4 User qualification, calibration: instructed user ‘User qualification’ on page 14 ‘CALIBRATION’ menu lets you calibrate the sensors. Settings menu Options Metering Warnings Calibration settings Flow Level Transfer Timer 4 ... 20 mA 4 ... 20 mA A3143 Fig.

  • Page 115: Calibration Menu

    Calibrating sensors 10.1 Calibration menu Menu 1 (pH value) Menu 2 (ORP) Menu 3 Menu 4 (other) Offset Offset Slope Offset Clear Slope Clear Slope Clear 2-point Clear Temperature A3159 Fig. 129: Calibration menu The menu does not have the same options depending on the type of sensor being calibrated.

  • Page 116: Inputs For Calibration

    Calibrating sensors 10.3 Inputs for calibration A keypad that enables you to input the real value you wish to use for calibration. In the special case of pH calibration with (a) buffer solution(s), the value of the buffer solution must be entered. The same applies to ORP.

  • Page 117: 2-Point Calibration

    Calibrating sensors 10.8 2-point calibration 2-point calibration is a supported offset and slope calibration and is only available with pH sensors. Calibration is performed with buffer solutions. The process is performed in two steps with two solu‐ tions. Step 1 Place the pH sensor in solution 1 (e.g.

  • Page 118: Maintenance/Repair

    Maintenance/repair Maintenance/repair The device is maintenance-free. Only allow the manufacturer to carry out repairs.

  • Page 119: Diagnostics And Troubleshooting

    Diagnostics and troubleshooting Diagnostics and troubleshooting...

  • Page 120: Disposal Of Used Parts

    Refer to the Material Safety Data Sheet for your feed chemical. A current Declaration of Decontamination is available to download on the ProMinent website. Sign indicating EU collection system In accordance with the European Directive 2012/19/EU on waste electrical and electronic equipment, this device features the symbol showing a waste bin with a line through it.

  • Page 121: Replacement Of Back-Up Battery

    Replacement of back-up battery Replacement of back-up battery User qualification, installation of the secondary module: Elec‐ Ä Chapter 2.4 ‘User qualification’ on page 14 trical technician Disconnect the system from the power supply. Open the transparent cover, . A2995 Fig. 130: 4 screws Use an appropriate screwdriver to loosen the 4 screws.

  • Page 122: Installation Of The Secondary Module

    Installation of the secondary module Installation of the secondary module User qualification, installation of the secondary module: Elec‐ Ä Chapter 2.4 ‘User qualification’ on page 14 trical technician Disconnect the system from the power supply. Open the transparent cover, . A2995 Fig.

  • Page 123: Technical Data

    Technical data Technical data Main features Type(s): Specification(s) Consumption: Maximum 12 watts, without metering accessories connected. Power supply requirements: 90 ... 240VAC 50/60Hz Electrical protection: Fuses 160 mA. Resetting by power interruption Operating temperature (°C): -5 °C ... 45 °C (23 °F ... 113 °F) Material: ABS or polycarbonate (USA and Canada) Dimensions of the housing:...
  • Page 124 Technical data Main features Relay outputs: 2 electronic relay outputs Analogue outputs: 4 no. 0/4...20 mA analogue outputs, max 500 Ω Power output: 1 no., 12 V power output Communication connector: RS485: 1 no., RS485 communication connector Ethernet: 1 no. Ethernet output Protection of metering outputs: Internal fuse: 2 no., TR5 3,15 A, 250 V, slow-acting fuses...

  • Page 125: Dummy Ce Declaration

    DUMMY CE Declaration DUMMY CE Declaration ProMinent GmbH Im Schuhmachergewann 5 - 11 D - 69123 Heidelberg, Germany, hereby declare that the product specified in the following complies with the relevant basic health and safety rules of the EC/EU Direc‐...

  • Page 126: Index

    Index Index 1, 2, 3 ... 12/24-hour display mode ....110 Links to elements or sections of these instruc‐ tions or other applicable documents ... 2 Action, step by step .
  • Page 127 Index Setting and configuration ....79 Slope ....... . . 115 Standard scope of supply .
  • Page 128 ProMinent GmbH Im Schuhmachergewann 5 - 11 69123 Heidelberg, Germany Telephone: +49 6221 842-0 Fax: +49 6221 842-419 Email: info@prominent.com Internet: www.prominent.com 981009, 2, en_GB © 2020...

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