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JUMO AQUIS touch P Operating Manual

JUMO AQUIS touch P Operating Manual

Modular multichannel measuring device for liquid analysis with integrated controller and paperless recorder

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JUMO AQUIS touch P

Modular Multichannel Measuring Device for

Liquid Analysis with Integrated Controller and

Paperless Recorder

Operating Manual

20258000T90Z001K000

V6.00/EN/00607974

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Page 1 JUMO AQUIS touch P Modular Multichannel Measuring Device for Liquid Analysis with Integrated Controller and Paperless Recorder Operating Manual 20258000T90Z001K000 V6.00/EN/00607974...
Page 2 Caution! If the device or a sensor connected to it fails abruptly, it is likely that a dangerous overdosage has occurred! For this case, appropriate precautionary measures must be taken. NOTE! Read this operating manual before putting the device into service. Keep the operating manual at a location that is readily accessible to all users.
Page 3: Table Of Contents
Content Safety information ............13 Warning symbols ................13 Indicative symbols ................13 Intended use ..................14 Qualification of personnel ..............14 Acceptance of goods, storage, and transport ....15 Checking the delivery ..............15 Important information about storage and transport ......15 Returning goods ................
Page 4 Content Galvanic isolation ................39 Connection diagram ................. 40 6.4.1 Overview of connections ..............40 6.4.2 Analog inputs base unit ..............42 6.4.3 Analog inputs optional boards ............44 6.4.4 Analog outputs ................. 54 6.4.5 Binary inputs ..................55 6.4.6 Digital outputs, power supply unit board ..........
Page 5 Content 8.2.5 Service ..................... 94 8.2.6 Calibrating the touchscreen ............. 95 8.2.7 Digital sensors ................. 95 Alarm/Event list ................100 8.3.1 Alarm list ..................101 8.3.2 Event list ..................104 Memory Manager (USB flash drive) ..........108 Operating the controllers ............... 111 8.5.1 Automatic control mode ..............
Page 6 Digital sensors ................158 10.10.1 General information ............... 158 10.10.2 Configuration ................. 159 10.10.3 Sensor alarms ................166 10.10.4 CIP/SIP definition (JUMO digiLine pH only) ........169 10.10.5 Calibration timer ................169 10.11 Limit monitoring and alarms ............170 10.11.1 Limit value monitoring functions ............ 170 10.11.2 Alarms for analog signals and digital sensors .......
Page 7 Content 10.15.1 Control timer .................. 185 10.16 Washtimer ..................186 10.17 Counter ..................187 10.18 Ethernet ..................188 10.19 Serial interfaces ................189 10.20 Formula ..................191 10.21 Logic formula ................. 192 10.22 Manual values (configuration) ............192 10.23 External analog inputs ..............193 10.24 External digital inputs ..............
Page 8 Content 14.2.1 Calibration methods for Redox sensors ......... 219 14.2.2 Calibration default settings for Redox sensors ......220 14.3 Redox calibration routines ............. 221 14.3.1 Zero-point calibration ..............221 14.3.2 Two-point Calibration ..............223 Calibrating ammonia sensors ........225 15.1 Notes ..................... 225 15.2 General information ...............
Page 9 Content Calibrating universal inputs .........245 18.1 Important information ..............245 18.2 General information ............... 245 18.2.1 Calibration methods for universal inputs ........245 18.2.2 Universal inputs calibration default settings ........247 18.3 Universal input calibration routines ..........249 18.3.1 Zero point/slope calibration (linear scaling) ........250 18.3.2 Two-point calibration (linear scaling) ..........
Page 10 22.7.2 Configuring the connection with the assistant ....... 300 22.7.3 Configuring the connection without the assistant ......307 22.7.4 Searching for a device in the network ..........309 22.8 Setting up the device with the JUMO PC setup program ....311 22.8.1 Identification ................... 311...
Page 11 Content 22.8.2 Configuring and parameterizing ............. 313 22.8.3 User list ..................313 22.8.4 Country settings ................316 22.8.5 Device character set ..............322 22.8.6 User levels ..................324 22.8.7 Formula ..................325 22.8.8 Logic formula ................. 326 22.8.9 Customer-specific linearization ............327 22.8.10 Buffer set tables ................
Page 12 Troubleshooting and remedies for digital sensors ......383 24.1.1 Possible faults on sensors with JUMO digiLine electronics ... 383 24.1.2 Possible faults on digital JUMO ecoLine and tecLine sensors ..386 24.2 Planning the cabling for digital sensors ......... 389 24.2.1 Voltage supply to the bus with DC 5 V from a...
Page 13 Content 24.2.2 Voltage supply to the bus with DC 5 V from a JUMO digiLine hub ................ 392 24.2.3 Voltage supply to the bus with DC 24 V ........394 24.2.4 Voltage drop calculation ..............396 24.3 China ..................... 399...
Page 14 Content...
Page 15: Safety Information
1 Safety information Warning symbols DANGER! This symbol indicates that the risk of personal injury from electrocution exists if the appropriate precautionary measures are not taken. WARNING! In conjunction with the signal word "Warning", this symbol indicates that the risk of personal injury or death exists if the appropriate precautionary measures are not taken.
Page 16: Intended Use
1 Safety information Intended use The JUMO AQUIS touch P is designed for measurement, control, and automa- tion tasks in industrial environments as specified in the technical data. Use for any other purpose is considered contrary to the intended use.
Page 17: Acceptance Of Goods, Storage, And Transport
Description of the application • Description of the error that has occurred The accompanying letter for repair is linked to www.jumo.de on the Internet un- der the heading Service & Support as follows: Product Service r Repair Service r Returning a unit...
Page 18: Protection Against Electrostatic Discharge (Esd)
2 Acceptance of goods, storage, and transport 2.3.2 Protection against electrostatic discharge (ESD) CAUTION! Electrostatic charges occur in non-ESD-protected environments. Electrostatic discharge can damage assemblies or components. For transport purposes, use only the ESD packaging provided. To prevent damage from ESD, electronic assemblies, or components with a high internal resistance must be handled, packaged, and stored in an environ- ment that protects against ESD.
Page 19: Device Description
3 Device Description Brief description Measuring The JUMO AQUIS touch P provides a central platform for the display and pro- cessing of pH value, redox voltage, electrolytic conductivity, resistance of high- purity water, temperature, quantities of disinfecting agents such as free chlorine, total chlorine, chlorine dioxide, ozone, hydrogen peroxide and peracetic acid or even flow rates.
Page 20 3 Device Description Application examples The modular setup and open structure of the device permits a host of potential applications: • Municipal and industrial water treatment in wastewater treatment plants • Process systems • Drinking and bathing water monitoring • Pharmaceutical water •...
Page 21: Block Diagram
ISFET), redox-, or NH sensors/ electrolytic conductivity (conductive) for Conductivity sensors in 2-/4 conductor technology/ electrolytic conductivity (inductive) for inductive Power supply unit and base unit conductivity sensors from JUMO with series connections Expansion slots for AddOn with Optional boards...
Page 22: Device Setup
3 Device Description Device setup Mounting brackets Metal case barrel Rear panel with connection terminals (base unit and optional boards) Housing front LED (voltage supply switched on) Touch screen TFT color screen USB interfaces...
Page 23: Identifying The Device Version
4 Identifying the device version Nameplate The nameplate on the device enclosure identifies the device version. Example of a nameplate 36039 Fulda JUMO GmbH & Co. KG Germany www.jumo.net Typ: 202580/8-01-0-0-00-00-00-00-23-08/962 MAC-Adr.: 000CD809A9C5 AC 110...240 V +10/-15 %, 48...63 Hz, 28 VA...
Page 24: Order Details
In addition to the standard languages of German, English, and French, 13 ad- ditional languages (e.g. Russian, Chinese, Italian etc.) are available. Please use the contact information on the back of this manual to contact JUMO in this regard. Slot...
Page 25 4 Identifying the device version (7) Input/output 2 IN 12, OUT 8/9 Not used Universal input Relay (changeover contact) 2× relays (normally open contact) Solid state relay triac 230 V, 1 A Logic output 0/22 V 2× logic outputs 0/12 V analog output 2×...
Page 26: Scope Of Delivery
Panel seal Mini-DVD with JUMO PC setup program as demo version, Adobe Acrobat Reader, operating man- ual and data sheet in PDF format, GSD generator and JUMO PCC / PCA 3000 as demo version Installation instructions in 2 volumes B 202580.4...
Page 27: Accessories
PhotoMOS® is a registered trademark of Panasonic. The accessories required to install a JUMO digiLine bus can be found in the type sheets and operating manual for the JUMO digiLine components (e.g. JUMO digiLine pH/ORP/T type 202705 or JUMO dig- iLine hub type 203590).
Page 28 4 Identifying the device version...
Page 29: Mounting
5 Mounting Notes DANGER! Under no circumstances may the device be installed or removed while under voltage! This poses the risk of electrocution. Switch-off the entire system beforehand. This work must be performed only by qualified personnel! The device must never be installed in potentially-explosive areas! There is the risk of an explosion.
Page 30: Dimensions
5 Mounting Dimensions 130,9 mm 123,1 mm 96 mm Panel thickness max. 5 mm 17,25 mm 17,25 mm 5,5 mm +0.8 mm 92 mm Spacings For adequate ventilation, the following mounting distances from adjacent equip- ment must be respected: • horizontal 35 mm •...
Page 31 5 Mounting Mounting depth with Ci-conductivity sensor 283,3 mm...
Page 32: Panel Insertion
Insertion in a control panel provides protection class IP66. When the JUMO AQUIS touch P is inserted in the wall of control cabinets with a protection class higher than IP66, the protection class of the control cabinet lapses and corre- sponds to the protection class for control panel insertion (IP66).
Page 33 5 Mounting Metal case barrel of the JUMO AQUIS touch P Mounting elements Seal from the scope of delivery for the device Case front Panel/control cabinet Procedure Step Action Push the panel seal provided (3) from the rear panel of the device over the case barrel to the front panel.
Page 34 5 Mounting...
Page 35: Electrical Connection
6 Electrical connection Installation notes DANGER! Observe the following instructions! Qualification of personnel • The electrical connection must only be carried out by qualified personnel. Electrical wiring • When selecting the electrical wiring material as well as when installing and connecting the device electrically, comply with the requirements of DIN VDE 0100 "Low-voltage electrical installations"...
Page 36 6 Electrical connection Electrical safety • Disconnect all phases of the power supplied to the device (power grid, out- side power supply sources for relays/solid state relays etc.) If current-carry- ing components could be touched while work is being performed. •...
Page 37: Connecting Cables
6 Electrical connection Connecting cables 6.2.1 Preparing coaxial cables for pH/redox electrodes ® Coaxial cable with Shield-Kon connector Length Part no. 1.5 m 00085154 00307298 10 m 00082649 Preparing your own coaxial cable 25 mm Sensor Remove outer sheathing from the cable > Pull back the braided shield Inner conductor Shield-Kon®...
Page 38 6 Electrical connection Inner conductor Shrink sleeve Use shrink tubing to insulate the braided shield NOTE! The black, semiconducting layer must not touch with the inside conductor! This would short-circuit the signal from the pH electrode. Preparing a shielded multiconductor cable 60 mm Strip the insulation off the connecting cable and pull back the shield 60 mm...
Page 39: Conductor Cross-Sections For Base Unit And Power Supply Unit
6 Electrical connection 60 mm Shield-Kon® connector Use shrink tubing to insulate the shield and Shield-Kon® connector 6.2.2 Conductor cross-sections for base unit and power supply unit The terminals on the base unit and power supply unit are plug-in screw termi- nals.
Page 40: Conductor Cross-Sections For Optional Boards
6 Electrical connection 6.2.3 Conductor cross-sections for optional boards The terminals on optional boards are plug-in screw terminals. Optional boards for Ferrule Conductor cross sec- Length to tion strip minimal Maximum Universal inputs without ferrule 0.14 mm 1.5 mm 7 mm Analog outputs with ferrule with lip 0.25 mm...
Page 41: Galvanic Isolation
If sensors that are not electrically isolated are connected to a digital input and supplied by an external power source, potential differences between the in- ternal and external ground can cause problems. Thus, it is preferable to take power from the power outputs of the JUMO AQUIS touch P.
Page 42: Connection Diagram
6 Electrical connection Connection diagram 6.4.1 Overview of connections Options Base unit Supply unit Assem- Connector terminal Type Inputs Base PWR IN Voltage supply for the device unit IN 1 to IN 3 Digital inputs IN 4 to IN 5 Temperature inputs IN 6 Universal input...
Page 43 6 Electrical connection Outputs Power OUT 1 to 2 Digital outputs (relay changeover contact) supply unit OUT 3 Not available Base OUT 4 Analog output unit OUT 5 Not available – Option- OUT 6 to OUT 13 Analog/digital outputs, OUT 8/9 also for voltage supply output DC ±5 V, 24 V boards Interfaces...
Page 44: Analog Inputs Base Unit
6 Electrical connection 6.4.2 Analog inputs base unit Connector/ Connection variant Symbol terminal IN 4 RTD temperature probe 2-wire circuit Pt100, Pt1000 or customer-specific characteristic line RTD temperature probe 3-wire circuit Pt100, Pt1000 or customer-specific characteristic line IN 5 RTD temperature probe 2-wire circuit Pt100, Pt1000 or customer-specific characteristic line...
Page 45 6 Electrical connection Connector/ Connection variant Symbol terminal IN 6 Standard signal Current 0(4) to 20 mA...
Page 46: Analog Inputs Optional Boards
6 Electrical connection 6.4.3 Analog inputs optional boards Universal inputs Slot Connection variant Symbol IN 11 RTD temperature probe IN 12 2-wire circuit Pt100, Pt1000 or customer-specific characteristic line RTD temperature probe 3-wire circuit Pt100, Pt1000 or customer-specific characteristic line Resistance potentiometer A = Start E = End...
Page 47 6 Electrical connection pH/Redox/NH3 analysis inputs For optional board "analysis pH/Redox/NH3", 2 versions are currently in circula- tion. The connection diagram contains the connection terminal layout for both version I and version II. To identify the version of your optional board, compare the connection terminal layout to the following illustrations: 4 5 6 1 2 3...
Page 48 The RTD temperature probe can be connected to a temperature input or universal input. The conductor colors listed refer to JUMO ISFET-pH sensors. The orange-colored conductor is not con- nected. The "Voltage supply output DC ±5 V, 24 V" optional board (part no.. 00592963) is needed in slot "OUT 8/ 9"...
Page 49 When connecting the temperature probe of JUMO ISFET pH sensors to process connection 615 (NTC 8k55), no customer-specific linearization like that for the JUMO AQUIS 500 pH is needed. The IN 5 tem- perature input supports connection of 8k55-NTC temperature probes.
Page 50 6 Electrical connection Slot Option/connec- Wire Potential Terminal Symbol tion variant (color) Temperature Analysis input input pH/redox IN 7 pH/Redox A (core) Glass/met- IN 8 al electrode Asymmetric con- B (inner Reference nection of a combi- shield) electrode nation electrode with integrated C (gray) Pt100/1000 Connection...
Page 51 6 Electrical connection Slot Option/connec- Wire Potential Terminal Symbol tion variant (color) Temperature Analysis input input pH/redox IN 7 pH/Redox A (core) Glass/met- IN 8 al electrode Symmetric con- nection of a combi- nation electrode B (inner Reference shield) electrode C (ground- Liquid po- ing pin,...
Page 52 6 Electrical connection Slot Option/connec- Wire Potential Terminal Symbol tion variant (color) Temperature Analysis input input pH/redox IN 7 pH/Redox A (core) Glass/met- IN 8 al electrode Symmetric con- B (inner Reference nection of a combi- shield) electrode nation electrode C (gray) Pt100/1000 Connection with integrated...
Page 53 6 Electrical connection The connection diagram for the selected analog input must be observed when connecting the tempera- ture probe.
Page 54 Terminal 1 must be connected to the outer electrode on concentric conductivity sensors. A = Outer electrode (core color for JUMO types with fixed cable: White) B = Inner electrode (core color for JUMO types with fixed cable: Brown) C= Shield...
Page 55 CR optional board (conductive conductivity measurement) 4-electrode system A = Outer electrode 1 (I hi) (core color of CR-4P cable for JUMO types: Red) B = Inner electrode 1 (U hi) (core color of CR-4P cable for JUMO types: Gray)
Page 56: Analog Outputs
6 Electrical connection 6.4.4 Analog outputs Base unit Connector/ Connection variant Symbol terminal OUT 4 analog output DC 0 to 10 V or DC 0(4) to 20 mA (configurable) Optional boards Slot Option/connection variant Symbol OUT 6/7 analog output OUT 8/9 DC 0 to 10 V or OUT 10/11 DC 0(4) to 20 mA...
Page 57: Binary Inputs
6 Electrical connection 6.4.5 Binary inputs Base unit Connec- Connection variant Wire Potential Terminal Symbol tor/ DC 24 V IN 1 IN 2 IN 3 terminal OUT 8/9 IN 1 to 3 Digital input Potential-free contact (potential-free contact) In the digital input configuration, the "Contact" option must be set to "Potential-free contact".
Page 58 6 Electrical connection To provide power to the sensors at DC 24 V, the optional board for power supply voltage (Part No. 00592963) must be installed in the device. The connection variants for transistor switching outputs (NPN / PNP) are especially important for the flow measurement via impeller sensor (type 406020, part no.
Page 59: Digital Outputs, Power Supply Unit Board
6 Electrical connection Optional boards Connector/ Connection variant Symbol terminal IN 13/14/15 3× binary input IN 16/17/18 (potential-free contact) 6.4.6 Digital outputs, power supply unit board Connector/ Connection variant Symbol terminal OUT 1 Relay OUT 2 Changeover contact...
Page 60: Digital Outputs, Optional Boards
6 Electrical connection 6.4.7 Digital outputs, optional boards Slot Option/connection variant Symbol OUT 6/7 Relay OUT 8/9 Changeover contact OUT 10/11 OUT 12/13 2× relay Normally Open Contact Solid state relay triac 230 V/1 A 2× solid state relay PhotoMOS® 50 V/200 mA Binary output 0/22 V...
Page 61: Mains Power Connection
6 Electrical connection WARNING! Combining a mains voltage circuit with a protective low-voltage circuit on the option "dual normally open contacts" is not permissible. 6.4.8 Mains power connection Connector/ Connection variant Symbol terminal PWR IN Mains power input...
Page 62: Voltage Supply Outputs
6 Electrical connection 6.4.9 Voltage supply outputs Optional board Slot Connection variant Symbol OUT 8/9 Voltage supply DC 24 V for external transmitters 24 V DC ±5 V voltage supply (e.g. for ISFET sensors or JUMO digiLine)
Page 63: Interfaces
6 Electrical connection 6.4.10 Interfaces NOTE! When installing the bus cabling for digital sensors, heed the information regard- ing line length and number of sensors in the Annex. ⇨ Chapter 24.2 "Planning the cabling for digital sensors", page 389 Base unit interfaces Connec- Connection Wire (color)
Page 64 For connection of a JUMO digiLine bus line to operate digital sensors, JUMO offers 5-wire M12 digiLine Master connecting cable. A total of up to 6 digital sensors (JUMO ecoLine/tecLine or sensors with JUMO dig- iLine electronics) can be operated over a JUMO digiLine bus.
Page 65 6 Electrical connection USB device USB device Type Mini-B (socket) USB host USB host Type A (socket)
Page 66 6 Electrical connection Optional board interfaces Slot Option/con- Wire/pin Potential Terminal Symbol nection variant (color) OUT 8/9 COM 2 ±5 V 24 V COM 2 RS422 RxD+ RxD+ RxD+ RxD- RxD- terminating re- RxD- TxD+ TxD+ sistors with TxD- TxD- DIP switches on TxD+ optional board...
Page 67 Up to 6 digital sensors ((JUMO eco- Line/tecLine or sensors with JUMO digiLine electronics) can be operat- ed over a JUMO digiLine bus. The voltage supplies of DC 5 V and DC 24 V for the sensors on the bus are provided by the voltage supply outputs on the device (optional board).
Page 68 To provide power to the digital sensors, the optional board for power supply voltage (Part No. 00592963) must be installed in the device. NOTE! Only 1 serial interface per device can be used for JUMO digiLine (see Chapter 10.19 "Serial interfaces", page 189). A maximum of 6 sensors can be connected to the selected interface.
Page 69: Startup
When the battery is empty a battery alarm will indicate that status. The battery must be exchanged before it is empty. The bat- tery must be exchanged by the JUMO Service department! In this case, send in the device!
Page 70: Digital Sensors
As soon as a sensor with digiLine electronics is connected to the bus, the JUMO AQUIS touch P detects and links it to an available (not yet linked) and suitably configured input for digital sensors. The status of the link can be checked in the assignment table.
Page 71 Chapter "Procedure for manual linking of digital sensors", page 98 Configuring the inputs for digital sensors: ⇨ Chapter 8.2.7 "Digital sensors", page 95 The following table describes the startup procedure for an individual JUMO sen- sor with digiLine electronics. Step Action Log in as user "Master"...
Page 72 Digital JUMO ecoLine and tecLine sensors can communicate with the JUMO AQUIS touch P over the digiLine bus just like JUMO sensors with digiLine elec- tronics. However, they do not support plug & play and must be put into operation in another way.
Page 73 7 Startup Step Action Check whether this entry has the status "Installation". If this is not the case, check the configuration of the selected input for digital sensors. Example of view showing the status of assignment table entries: linked Installation ⇨...
Page 74: Restarting
When replacing JUMO digiLine electronics assemblies, each electronics as- sembly must be replaced individually before the next one is disconnected from the bus.
Page 75: Function Test
⇨ Chapter 11.1 "Inserting optional boards", page 197 If this is not successful, contact Technical Support at JUMO. The contact data can be found on the back of these installation instructions. 7.3.2 Checking sensors and inputs/outputs To check correct operation of all inputs/outputs, you can display the current an- alog and binary values.
Page 76 The device calculates the (compensated) values of the process variable from the (uncompensated) raw measurement data. Sample screen: IN 7 measures conductivity IN 8 measures pH value IN 9 to 10 are available only on the JUMO AQUIS touch S.
Page 77: Operation
This chapter explains how to use the functions at the operating level (e.g. con- troller and data monitor) and access the menu structure for editing device set- tings. The JUMO AQUIS touch P is operated by means of the touchscreen, using either a finger or stylus with a soft, rounded plastic tip.
Page 78 8 Operation Factory-set user rights Users Every- User 2 User 1 Service Master User rights Display of: • Current measuring values on overview and detailed screens • Configuration data • parameters • Device information Display of: • History of measurement data in the record- ing function •...
Page 79: Display And Control Elements
8 Operation 8.1.2 Display and control elements (7) (8) (9) Title bar Touchscreen Toolbar with buttons for operation "Device menu" button with display of: • Date and time • Logged-in user ("Master" in the example) • Remaining memory display in percent for recording function (in the example: 100 %) "Alarm/Event List"...
Page 80: Menu Structure
8 Operation 8.1.3 Menu structure At the operating level, 3 different navigation buttons are available to select ap- propriate screens for display and control of device functions. The "Device menu" and "Alarm/event list" menu levels are also displayed by means of corresponding buttons. The device menu contains submenus for set- ting, servicing, and diagnosing the device and its functions.
Page 81 8 Operation Overview of the menu structure Operating level Home Select Next operator operator display display Navigation in the operating loop Plug-in USB flash drive Device settings Memory Alarm-/ menue manager event list Secure hardware Login/logoff Alarm list remove Recorder Event list Calibration Update to USB...
Page 82 8 Operation NOTE! The "Recorder Update to USB" and "Recorder Backup to USB" items appear in the "Memory Manager" menu only if the extra "Recording function" is en- abled. ⇨ Chapter 4.2 "Order Details", page 22...
Page 83 8 Operation Operation screens in the operation loop (16) (15) (14) (13) (12) (11) (10)
Page 84 8 Operation Dia- Operator screen Description General screen 1 Freely configurable overview display of measuring values and digital sig- nal states General screen 2 The overviews can be configured as a 2-part screen or a 4-part screen. 2-part screen: Display of 2 primary and 2 secondary measured values per screen, 1 ad- ditional measured value and 3 binary values.
Page 85 A digital sensor does not deliver valid values because it either is not correctly linked or a scan is in progress on the JUMO digiLine bus. Error in the formula used by the mathematics module: The result from a formula is invalid (e.g.
Page 86: Entry Of Text And Numbers
8 Operation 8.1.4 Entry of text and numbers Dialogs for entry of text or numbers appear automatically when the correspond- ing entry field is tapped. Text entry dialog There are 2 special features in addition to conventional entry of characters: •...
Page 87 8 Operation Number entry dialog This dialog opens if an entry field for numerical values is tapped. Special feature: The "Exp" button permits entry of an exponent as a power of ten. Procedure: Enter the numerical base value > Tap "Exp" > Enter the exponent > Confirm the entry Entry dialog buttons Explanation...
Page 88: Device Menu
8 Operation Device menu NOTE! Operation depends on the user's rights. Operating and setting options are re- stricted, depending on the user who is logged in. The "Master" and "Service" users have access to all menus and functions (de- fault setting). ⇨...
Page 89 No user level is configured at the factory. The user level must be configured and loaded into the device with the aid of the JUMO PC setup program. The "User Levels" entry does not appear in the device menu as long as no user level is config- ured.
Page 90 8 Operation To navigate in submenus, menu items are opened by tapping the folder icons identified with a plus sign. Open menu structures are identified with a minus sign and can be closed again by tapping the folder icon. Currently open windows can be left either by tapping "Exit" or the "Close win- dow"...
Page 91: Log-On/Log-Out
The logon/logoff dialog is open • The memory manager is open • During calibration of analysis sensors • During calibration of the touchscreen The re-authentication time is set using the JUMO PC setup program. ⇨ Chapter 22.8.3 "User list", page 313...
Page 92: User Levels
8.2.2 User levels A user level consists of a user-defined list of parameters and configuration set- tings. Up to 16 such user levels can be set up. You need the JUMO PC setup program to configure the user level. ⇨...
Page 93: Functional Level
8 Operation 8.2.3 Functional level The functional level is used primarily for testing and diagnostic purposes. Analog and binary values of the outputs can be controlled manually here. This may be useful, for instance, for checking an individual piece of equipment in a plant. When performing maintenance and repair work, counters for operating hours, switching actions and flow rates can be reset.
Page 94 8 Operation Manual control of analog/digital outputs Activate the configuration setting "Enable menu mode" for the outputs you wish to control manually. "Manual mode buttons" buttons for manual control for these outputs then appear at the functional level. To adjust output values manually, proceed as follows: Select Device Menu >...
Page 95: Device Information
8 Operation 8.2.4 Device information For testing and diagnostic purposes, the "Device info" menu provides access to extensive data about the hardware and software of the device, as well as current analog and binary values. Device Info menu items: • General: Information about the main board, device software and Ethernet configuration •...
Page 96: Service
Chapter 11.2 "Ci base calibration", page 200 • Digital sensor 1 to 6: For each digital JUMO sensor from the product group 2026xx that is operating on the device, a menu appears here that allows you to reset the calibration date of the sensor to the default settings.
Page 97: Calibrating The Touchscreen
When the battery is empty a battery alarm will indicate that status. The battery must be exchanged before it is empty. The bat- tery must be exchanged by the JUMO Service department! In this case, send in the device! 8.2.6...
Page 98 Explanation Symbol linked Communication between the sensor electronics and the JUMO AQUIS touch P has been suc- cessfully established. The sensor is operating. Installation The device searches for the individual assign- ment table entry of a linkable sensor. A new sen-...
Page 99 With the "Link" button, you can access the submenu for linking sensors that are not linked. Digital sensors from the JUMO prod- uct groups 2026xx must be linked by means of this button during startup.
Page 100 Sensors with JUMO digiLine electronics can be identified by the hardware address on the nameplate of the JUMO digiLine electronics. It is also displayed in the list of detected sensors and in the sensor in- formation ("Info"...
Page 101 8 Operation Bus status display The operating status of the JUMO digiLine bus is visualized in the title bar. The symbols and their meanings are explained in the following table. Green There are no bus errors. All sensors are linked and functioning.
Page 102: Alarm/Event List
8 Operation Alarm/Event list The JUMO AQUIS touch P offers the option of configuring alarm functions and event functions in numerous functions. In addition, the electronics of the JUMO AQUIS touch S are self-monitoring and trigger corresponding preprogrammed alarms and events in case the internal device malfunctions.
Page 103: Alarm List
8 Operation 8.3.1 Alarm list The alarm list displays the current alarms. Alarms are cleared upon elimination of the alarm condition. Each alarm triggers a "collective alarm". The alarm list view contains buttons for viewing details about alarms and acknowledging col- lective and dosing alarms.
Page 104 8 Operation All alarms are available in the binary selector. In this way, digital outputs or other internal functions of the device can be controlled via alarms.
Page 105 8 Operation Acknowledging collective/dosing alarms The collective alarm combines all alarms in the alarm list. It simplifies signaling of one or several active alarms with external indicating devices or to control rooms. The binary signal for the collective alarm is available in the binary selec- tor in 2 versions: •...
Page 106: Event List
8 Operation 8.3.2 Event list A number of situations that are essential for tracking and diagnostic purposes are logged in the event list. The entries are identified with corresponding icons on the basis of the type of event. In addition, events are logged with an icon in the data monitor/recording function.
Page 107 E-mail error (with indication of the e-mail index 1 to 5 error number Up to 5 event-controlled e-mail notifications can be set up in the JUMO PC setup program. The notifications are numbered consecutively with an index from 1 to 5. The index corresponds to the tab number on an e-mail template in the JUMO PC setup program.
Page 108 8 Operation Error codes in the event list when sending an e-mail via modem and Ethernet Error number Meaning Step error in state automation Invalid response length No CONNECT from modem FCS checksum incorrect Unexpected value or response Conf request not accepted No conf request from opposite end No CHAP request from opposite end Response timeout...
Page 109 8 Operation No MD5 requested for CHAP Authentication error Canceled from opposite end Error creating TCP socket Error binding TCP socket Error during TCP connect Error sending TCP telegram Error closing TCP socket Error during TCP listen Reset during TCP accept Error during TCP accept SMTP server reports syntax error TCP socket is already closed...
Page 110: Memory Manager (Usb Flash Drive)
The measurement data are stored in DAT files and the configuration data in SET files. These files can be opened and evaluated with the aid of the JUMO PCA3000 evaluation software. Data that has been read out is marked inter- nally as retrieved and the available memory display is reset to 100 %.
Page 111 8 Operation PCA3000 evaluation software. In contrast to Recorder Update, there is no internal marking of recorder data and no resetting of the available memory display. NOTE! The "Recorder Update" and "Recorder Backup" functions are available only if the extra code "Recording" is enabled. NOTE! A measuring data recording session is closed by changing configuration data that are relevant to the data monitor or registration function (e.g.
Page 112 Software Update: The device software can be updated with the aid of a USB flash drive. To do so, an appropriate update file must have been saved the flash drive in advance; this file can be obtained from JUMO Service. CAUTION! It is strongly recommended that the configuration and recorder data be backed prior to performing a software update.
Page 113: Operating The Controllers
8 Operation Operating the controllers NOTE! Since the automatic control mode is of prime importance in the case of control- lers, correct configuration of the individual controller and its parameterization (ad- justment of the control response) are very important for achieving good pro- cess value stability.
Page 114: Automatic Control Mode
Setpoint 2 can be activated instead of Setpoint 1 in each controller by means of "Setpoint selection". Setpoints can also be specified by external sources and transmitted to the controllers in the JUMO AQUIS touch S via analog inputs. "Setpoint selection" and the configuration of external setpoints are set in the "Setpoint configuration".
Page 115 8 Operation On the operator screen of each controller, it is possible to change the current controller setpoint value, switch to the "Manual mode" or start "Self-optimiza- tion". Display of the digital controller output signals as indicator lights "Manual entry" button for changing the current setpoint value A change to the currently active setpoint value is transferred to the con- troller parameters.
Page 116: Controller In The Manual Mode
8 Operation 8.5.2 Controller in the manual mode In manual mode, the user can manually control the controller outputs. The controller outputs can be controlled in two ways: • Entry of a numerical value: Using the "Manual entry" button, the user can open a dialog to enter a fixed numerical value for the output. •...
Page 117: Hold Mode
8 Operation 8.5.3 Hold mode The hold mode of a controller is activated in two ways: • Calibration of the actual-value input • Hold signal for the individual controller (specified in the controller configura- tion) In the hold mode, automatic control is suspended. The controller generates the preconfigured value as output level unless acceptance of the hold output is dis- abled in the configuration.
Page 118: Optimizing Controllers
8 Operation 8.5.4 Optimizing controllers The control response can be optimized by entering known controller parameters manually or automatically by means of "self-optimization". During self-optimiza- tion, the individual controller determines the mathematical parameters for a pro- cess. The controller changes the output level (step change) and evaluates the response of the actual value in the process (step response).
Page 119: Operation Of The Data Monitor/Recording Function
8 Operation Operation of the data monitor/recording function The standard version of the JUMO AQUIS touch P is equipped with a data mon- itor. It is used to record and view the analog measuring value and signal states of digital functions. Two groups are available, each of which can record up to 4 analog values and 3 binary values and display them in the form of a line recorder diagram.
Page 120: Data Monitor/Recording Function Control Elements
8 Operation 8.6.1 Data monitor/recording function control elements 3-channel binary channel diagram (visualization of the recorded signal states of up to 3 binary values) "Next Channel" button for scrolling through the stylus trace views (graph- ical representations of a scale with a stylus) for the individual Channels 1 to 4 ⇨...
Page 121 8 Operation Stylus trace view The "Next channel" button is used to scroll through the individual stylus trace views. For the particular channel selected, the appropriate scale with stylus trace appears in the stylus trace view. The position of the stylus corresponds to the current measured value of the channel.
Page 122 8 Operation Scrolling through the stylus trace views The sequence of views that appear with repeated tapping of the "Next Channel" button can be seen in the graphic below. General line recorder screen Stylus trace view Stylus trace view Channel 4 Channel 1 Channel advance...
Page 123: History Function
8 Operation 8.6.2 History function The history function is available only in the recording function. It permits the user to view all recorded data in the ring memory on the device's display. The history is opened by tapping the "History" button on the operator screen for the respective group.
Page 124: Online Visualization
⇨ Chapter 22.8.13 "Web server", page 352 The online visualization is open with a web browser. Enter either the IP address or the URL of the JUMO AQUIS touch P in the ad- dress bar of your web browser. ⇨...
Page 125 8 Operation The visualization displays a view identical in appearance to the device. A re- quest for a password appears next. The web server password specified in the web server configuration must be entered here. ⇨ Chapter 22.8.13 "Web server", page 352 As on the device, an operator screen can now be selected from the operation loop.
Page 126 The open Quad View displays 4 plus signs for this purpose. Clicking on any one opens a request to enter the IP address of the JUMO AQUIS touch P. After the IP address has been entered, the selected view opens and can be con- trolled exactly as in the "Visualization"...
Page 127 8 Operation Example of a Quad View:...
Page 128 8 Operation...
Page 129: Parameterization
• Switch time hh:mm:ss Time to switch to standard time NOTE! The date and time are set in the online parameters in the JUMO PC setup pro- gram. v See chapter 22.10.1 "Date and time" Page 356...
Page 130: Parameter Sets (Controller Parameter)
9 Parameterization Parameter Sets (Controller parameter) The parameters for the controller channels determine the control response of the individual control circuits. For stable control response, these parameters must be matched to the prevailing process conditions. Each controller channel has two parameter sets; the selection is made by means of a binary signal. "Pa- rameter set 1"...
Page 131 9 Parameterization Parameter Setting op- Explanation (Formula sym.) tions Switching peri- 0 to 9999 s If an output of a controller channel is con- od 1 figured as a Pulse length output, the period factory setting: between the switching pulses is fixed. 20.0 s The length of the switching period should be selected such that, on the one hand, the...
Page 132 9 Parameterization Parameter Setting op- Explanation (Formula sym.) tions min. relay 0 to 60 s Depending on the Min. relay switch-on switch-on time 1 time, a lower limit is set for the pulse length factory setting: or an upper limit is set for the pulse fre- 0.0 s quency.
Page 133: Setpoint Values
9 Parameterization Setpoint values The "Setpoint values" submenu allows two setpoint values for each controller channel to be entered. As with the parameter sets, it is also possible to switch between setpoint values by means of a binary signal. "Setpoint value 1" is active by default.
Page 134 9 Parameterization...
Page 135: Configuration
NOTE Changes to the configuration settings described in this chapter can be made directly on the device or via the JUMO PC setup program. NOTE Settings in the "Configuration" menu can be changed only if a user with corre- sponding user rights is logged in.
Page 136: Basic Settings
0 to 100 % If the available memory display reaches this val- ue, the memory alarm is triggered. The following settings can be edited only with the aid of the JUMO PC setup program Setup quick info up to 20 text...
Page 137: Display
10 Configuration 10.3 Display 10.3.1 General information Open: Device Menu > Configuration > Display > General Configuration point Selection/ Explanation setting option Lock touchscreen Selection from Digital signal that blocks operation of the touch- binary selector screen (e.g. key switch for locking operation) Simulation of When this function is activated, alternating on/off inputs...
Page 138: Screen
10 Configuration 10.3.2 Screen Open: Device Menu > Configuration > Display > Screen Configuration item Selection/ Explanation setting option Activation of screen- inactive Type of screensaver activation saver time to switch off control signal Wait time for screen- 10 to 32767 s only with activation of the screensaver after saver wait time:...
Page 139: Operating Loop
10 Configuration 10.4 Operating loop 10.4.1 General screens Open: Device Menu > Configuration > Operation Loop > General Screen > General Screen 1 to 2 Configuration point Selection/ Explanation setting option Gener. screen type 2-part screen Selection of the type of overview screen; 4-part screen 2-part screen: Display of 2 main values, 2 sec- ond values, 1 additional value and 3 binary val-...
Page 140: Detailed Screens
10 Configuration 10.4.2 Detailed screens Open: Device menu > Configuration > Operation Loop > Individual screen > Individual screen 1 to 6 Configuration point Selection/ Explanation setting option Screen title up to 31 text characters Title of the individual screen Input signal main val- Selection from Signal source of the analog value displayed as...
Page 141: Analog Inputs
Each value pair assigns a display value (Y-column) to a measuring value (X-column). Up to 8 linearization tables can be stored. To cre- ate a linearization table, you need the JUMO PC setup program. Start of -99999 to +99999...
Page 142 10 Configuration Configuration point Selection/ Explanation setting option 0 to 99999 Ω only for IN 5: Resistance value between the slid- er (S) and start point (A) in a resistance transmit- ter/potentiometer when the slider is at the start point. 6 to 99999 Ω...
Page 143: Universal Inputs Of Base Unit And Optional Boards
10 Configuration 10.5.2 Universal inputs of base unit and optional boards Base unit universal input: IN 6 Optional board universal inputs: IN 11/12 Open: Device Menu > Configuration > Analog Inputs > Universal Input 1 to 3 > Configuration Configuration point Selection/ Explanation setting option Designation...
Page 144 Each value pair assigns a display value (Y-column) to a measuring value (X-column). Up to 8 linearization tables can be stored. To cre- ate a linearization table, you need the JUMO PC setup program. Unit up to 5 text characters...
Page 145 10 Configuration Configuration point Selection/ Explanation setting option 6 to 4000 Ω only for IN 11/12: Span of the variable resistance value between the slider (S) and start point (A) 0 to 4000 Ω only for IN 11/12: Resistance value between the slider (S) and end point (E) in a resistance poten- tiometer when the slider is at the end point.
Page 146: Calibration Timer
10 Configuration Configuration point Selection/ Explanation setting option Compensation Selection from Analog input of the pH-value sensor for pH-com- pH value analog selection pensated measurement of free chlorine Alarms 1/2 Analog input alarms are used to monitor measured values in relation to adjustable limit values. The alarm settings for all analog device functions are explained together.
Page 147: Ph/Redox/Nh Analysis Inputs
10 Configuration 10.5.4 pH/Redox/NH analysis inputs Open: Device Menu > Configuration > Analog Inputs > Analysis Input 1 to 4 > Configuration Configuration point Selection/ Explanation setting option Designation up to 20 text characters Designation for the input Electrode type pH standard Type of electrode connected pH antimony...
Page 148: Calibration Timer
10 Configuration Configuration point Selection/ Explanation setting option Glass electrode configurable monitoring of pH glass electrodes monitoring minimum impedance without impedance converter maximum impedance min./max. impedance minimum impedance: monitoring for soft short/ sensor failure maximum impedance: monitoring for aging/pol- lution/wire break Reference Activation of reference electrode impedance electrode monitoring...
Page 149 10 Configuration NOTE The following points must be observed for correct operation of glass electrode monitoring via impedance measurement (see preceding table): • Impedance measurements are possible only with glass-based sensors. • Sensors must be connected directly to an analysis input for pH/Redox/NH on the device.
Page 150: Cr/Ci Analysis Inputs (Conductive/Inductive Conductivity)
10 Configuration 10.5.6 CR/Ci analysis inputs (conductive/inductive conductivity) Open: Device Menu > Configuration > Analog Inputs > Analysis Input 1 to 4 > Configuration Configuration point Selection/ Explanation setting option Designation up to 20 text characters Designation for the input Manual compensation Yes Activation of manual temperature compensation With manual temperature compensation (setting...
Page 151 10 Configuration Configuration point Selection/ Explanation setting option nominal for CR: 0.01 to 10 cm nominal cell constant of the conductivity sensor cell constant for Ci: 4.00 to 8.00 cm (can be read from the sensor nameplate) If an ASTM test certificate showing precisely- measured cell constants is available, in addition to entering the nominal cell constants the relative cell constants of all measuring ranges in the cal-...
Page 152: Calibration Timer
10 Configuration Configuration point Selection/ Explanation setting option Measuring ranges Four ranges each can be configured for conduc- 1 to 4 tive/inductive (CR/Ci) conductivity measure- ments. The settings for all CR-/Ci analysis inputs are explained together. ⇨ "CR/Ci measuring range configuration", page Alarms 1/2 Analog input alarms are used to monitor measured values per measuring range...
Page 153 10 Configuration CR/Ci measuring range configuration Open: Device Menu > Configuration > Analog Inputs > Analysis Input 1 to 4 > Measuring Range 1 to 4 Configuration point Selection/ Explanation setting option TDS factor 0.01 to 2.00 only for conductive conductivity with TDS compensation: Conversion factor from measured conductivity to display unit (see configuration item "Unit"...
Page 154 Each value pair assigns a display value (Y-column) to a measuring value (X-column). Up to 8 linearization tables can be stored. To cre- ate a linearization table, you need the JUMO PC setup program. Start of -99999 to +99999...
Page 155: Analog Outputs Of Base Unit And Optional Boards
10 Configuration 10.6 Analog outputs of base unit and optional boards Open: Device Menu > Configuration > Analog Outputs > Analog Output 1 to 9 Configuration point Selection/ Explanation setting option Designation up to 20 text characters Designation for the output Signal Selection from Analog signal source of the output...
Page 156: Digital Inputs Of Base Unit And Optional Boards
10 Configuration Configuration point Selection/ Explanation setting option Response at hold Specification of the analog output value when the high hold function is activated, during calibration of NAMUR low one of the sensors for the particular output or at NAMUR high error (overrange/underrange) hold safety value...
Page 157: Digital Outputs Of Base Unit And Optional Boards
10 Configuration 10.8 Digital outputs of base unit and optional boards Open: Device Menu > Configuration > Digital Outputs > Digital Output 1 to 17 Configuration point Selection/ Explanation setting option Designation up to 21 text characters Designation for the output Signal Selection from Digital signal source for the output...
Page 158: Alias Values
Open: Device menu > Configuration > Alias values > Alias value 1 to 16 An alias value is a useful tool for distributing an analog signal of the JUMO AQUIS touch P to several internal functions and analog outputs of the device. It...
Page 159 10 Configuration Configuration point Selection/ Explanation setting option Source of the desig- Text designation Selection of the designator text to be displayed nation Signal designation for the alias value For the designator text of the alias value in the analog selection and in the unit functions, you can select between "Text designation"...
Page 160: Digital Sensors
10 Configuration 10.10 Digital sensors NOTE For operation of digital sensors, you need the extra code "JUMO digiLine pro- tocol activated“ (see Chapter 4.2 "Order Details", page 22) NOTE Only one serial interface of the device can be configured for operation of digital sensors.
Page 161: Configuration
The alarm settings for all analog device functions are explained together. ⇨ Chapter 10.11.2 "Alarms for analog signals and digital sensors", page Only for JUMO sensors with JUMO digiLine electronics pH/ORP/T Configuration point Selection/ Explanation setting option...
Page 162 Sensor temperature: The integrat- ed temperature probe of the pH sen- sor supplies the compensation temperature. Interface: The AQUIS touch P trans- mits the compensation temperature to the JUMO digiLine electronics via the serial interface. The source of the compensation temperature is set in the configuration point "Compensa-...
Page 163 Correction value that is added to the measured temperature value This setting is saved in the configuration of the JUMO digiLine electronics. The unit for the item set in "Parameter" appears in the entry field. For JUMO ecoLine O-DO sensors only...
Page 164 "Interface": Selection of the signal source from the Analog selection of the JUMO AQUIS touch P for temperature com- pensation of the oxygen measure- ment in the O-DO sensor Start of display range -99999 to +99999 Upper/lower limit for labeling the...
Page 165 Decimal points in the display Filter Time Constant 0 to 25 s Optimization of measured value up- dating in the JUMO digiLine electron- The higher the value of the filter time const., the slower the measured val- ue is updated.
Page 166 10 Configuration For digital JUMO tecLine sensors only Configuration point Selection/ Explanation setting option Measuring range Setting of the measuring range for the various measurands of digital Free chlorine pH-dependent 2 ppm JUMO tecLine sensors Open chlorine measurement 20 ppm...
Page 167 10 Configuration Configuration point Selection/ Explanation setting option pH compensation source Selection from Analog available only with pH-compensa- selection tion activated: Analog input of the pH-value sensor for pH-compensated measurement of free chlorine The unit for the particular sensor value appears in the entry field.
Page 168: Sensor Alarms
JUMO AQUIS touch P. The settings for the alarm conditions themselves are made in the configuration of the individual sensor electronics or stipulated by the specifications for the particular sensor.
Page 169 Alarm for sensor calibration due (see "Calibration data" in the JUMO digiLine pH operating manual) CIP/SIP/Autoclaving warning Pre-alarm for maximum number of CIP/SIP/autoclaving cycles (see "Sensor monitoring" in the JUMO digiLine pH operating manual) CIP/SIP/Autoclaving alarm Alarm for maximum number of CIP/SIP/autoclaving cy- cles (see "Sensor monitoring"...
Page 170 Alarm for redox value out of range Calibration timer alarm Alarm for sensor calibration due (see "Calibration data" in the JUMO digiLine ORP operating manual) Digital input state Signal state of the digital input of the sensor electronics JUMO digiLine T...
Page 171: Cip/Sip Definition (Jumo Digiline Ph Only)
P, if the CIP, SIP or autoclaving counters in the JUMO digiLine electronics have reached the maximum number of permissible cycles. This setting is saved in the configuration of the JUMO digiLine electronics. 10.10.5 Calibration timer Open Calibration Timer Settings Digital Sensors: Device Menu >...
Page 172: Limit Monitoring And Alarms
10 Configuration 10.11 Limit monitoring and alarms 10.11.1 Limit value monitoring functions Open Limit Monitoring: Device Menu > Configuration > Limit Monitoring > Limit Value Monitoring 1 to 8 Configuration point Selection/ Explanation setting option Designation up to 21 text characters Designation for the limit monitoring Input signal Selection from...
Page 173 10 Configuration Configuration point Selection/ Explanation setting option Digital signal for hold Selection from the Digital signal for activating the hold function binary selector When the hold function is activated, the alarm as- sumes the state defined in the "Response at hold"...
Page 174 10 Configuration Minimum alarm (On-signal when value drops below lower limit) Binary value Hysteresis Input signal Limit value Maximum alarm (On-signal when value exceeds upper limit) Binary value Hysteresis Input signal Limit value Alarm window (On-signal within a configurable value range Binary value Hysteresis...
Page 175: Digital Signal Alarms
10 Configuration 10.11.3 Digital signal alarms Open Alarm Configuration For Binary Inputs: Device Menu > Configuration > Binary Inputs > Binary Inputs 1 to 9 Open Alarm Configuration For External Binary Inputs: Device Menu > Configuration > External Binary Inputs > External Binary Inputs 1 to 8 Open Alarm Configuration For Logic Formula: Device Menu >...
Page 176: Calibration Timer
JUMO AQUIS touch P. For sensors with JUMO digiLine electronics, only the calibration interval can be set. With pH and redox sensors with JUMO digiLine electronics, the calibration alarm is active automatically. The texts for alarm...
Page 177: Controller
10 Configuration 10.13 Controller 10.13.1 Configuration of the controllers Open: Device Menu > Configuration > Controller > Controller 1 to 4 > Configu- ration Configuration point Selection/ Explanation setting option Controller type Two-point controller Selection of controller type Three-state controller, Coarse-/fine controller, Modulating controller, continuous controller...
Page 178 10 Configuration Configuration point Selection/ Explanation setting option Acceptance of manual only for coarse/fine controllers: output 2 Acceptance of the preconfigured manual output level for the 2nd controller output upon activation of the manual mode Man. output level 2 0 to 100 % only for coarse/fine controllers: Preconfigured manual output level for the 2nd controller output...
Page 179 10 Configuration Configuration point Selection/ Explanation setting option Alarm ack. Inactive Activation/deactivation of the acknowledgment Active function Dosing alarms of the respective controller must be acknowledged in the "Alarm list" when "Alarm acknowledgement" is activated. Dosing alarms are not cleared automatically when the control deviation drops to a value that is less than or equal to the alarm tolerance.
Page 180 For more detailed information on the subject of control technology, you can download the technical article "Control technology - Basic principles and tips for the practitioner" (FAS 525) as a PDF document for free from the JUMO website.
Page 181: Controller Inputs
10 Configuration 10.13.2 Controller inputs Open: Device Menu > Configuration > Controller > Controller 1 to 4 > input Configuration point Selection/ Explanation setting option Designation up to 20 text characters Designation of the controller input Actual value Selection from Selection of the analog signal source for the ac- Analog selector tual value...
Page 182: Disturbance Feedforward Control
10 Configuration 10.13.3 Disturbance feedforward control Open: Device Menu > Configuration > Controller > Controller 1 to 4 > Ena. variable disturbance Configuration point Selection/ Explanation setting option additive var. disturb. Selection from Analog input for the additive variable disturbance Analog selector To the output level, the additive output level com- ponent...
Page 183: Autotuning
10 Configuration Configuration point Selection/ Explanation setting option Multiplicative Selection from Analog input for the multiplicative variable distur- Disturbance Analog selector bance The ratio of the variable disturbance value at the working point of the variable disturbance is multi- plied by the proportional gain of the controller. Changes in the variable disturbance affect the total gain of the controller.
Page 184: Setpoint Value Configuration
10 Configuration 10.14 Setpoint value configuration Open: Device Menu > Configuration > Setpoint Value Configuration > Setpoint Value Configuration Controller 1 to 4 Configuration point Selection/ Explanation setting option external Selection from Selection of the analog value as setpoint value Setpoint 1 to 2 Analog selector source...
Page 185: Timer
10 Configuration 10.15 Timer Open timer: Device Menu > Configuration > Timer > Timer 1 to 12 > Timer Configuration point Selection/ Explanation setting option Timer function Inactive Operating principle of the timer Timer Control timer Control timer: Functions as weekly time switch Control timer with run- Settings for a time program during the week ⇨...
Page 186 10 Configuration Configuration point Selection/ Explanation setting option Signal Selection from Selection of an analog signal the deviation of Tolerance band x Analog selector which from the "Tolerance band w signal" is to be monitored The timer starts and continues running only if the amount of deviation is not greater than the set window range.
Page 187: Control Timer
10 Configuration Timing diagram Timer start Timer time After-run time delay Timer end Timer start Timer time After-run time delay Timer end Signal Timer start Output signal After-run time Timer 10.15.1 Control timer Timer settings for a timed program during the week Prerequisite: The "Timer function"...
Page 188: Washtimer
10 Configuration 10.16 Washtimer Open: Device Menu > Configuration > Washtimer > Washtimer 1 to 2 Configuration point Selection/ Explanation setting option Washtimer active Activation/deactivation of the washtimer Washtimers are used to clean analysis sensors regularly and can actuate external equipment for cleaning sensors via binary outputs.
Page 189: Counter
10 Configuration 10.17 Counter Open: Device Menu > Configuration > Counter > Counter 1 to 4 Configuration point Selection/ Explanation setting option Function Inactive Counter operation mode Service counter Operating Hours Counter Service counter: The positive edges (switch-on operations) of a digital signal are counted (E.g.
Page 190: Ethernet
JUMO AQUIS touch P is connected. To enter an IP configuration manually for the JUMO AQUIS touch P, a valid available IP address in the network must be known. Please contact your network administrator in this regard.
Page 191: Serial Interfaces
(see order de- tails for extra code "JUMO digiLine protocol activated") In the JUMO AQUIS touch P, either the inter- face on the base unit or the optional serial in- terface (if present) can be configured for digital sensors (JUMO digiLine operation).
Page 192 When connecting digital JUMO ecoLine sensors, the data format of the JUMO AQUIS touch P must be set to "8-1-no parity" prior to startup. Otherwise, the sensors will not begin operation. Format: Useful bit – stop bit – parity bit...
Page 193: Formula
10 Configuration 10.20 Formula Mathematical formula are created with the JUMO PC setup program and loaded to the device. The configuration of a formula can then also be edited on the device itself. Open: Device Menu > Configuration > Mathematical Formula >...
Page 194: Logic Formula
10 Configuration 10.21 Logic formula Logic formula are created with the JUMO PC setup program and loaded to the device. Following this, the configuration of a logic formula can also be ed- ited directly on the device. Open: Device Menu > Configuration > Logic Formula > Formula 1 to 30...
Page 195: External Analog Inputs
10 Configuration 10.23 External analog inputs Open: Device Menu > Configuration > External Analog Inputs > External Analog Inputs 1 to 8 Configuration point Selection/ Explanation setting option Designation up to 20 text characters Designation of the external analog input Temperature None For automatic conversion of temperature units, it...
Page 196: External Digital Inputs
10 Configuration 10.24 External digital inputs Open: Device Menu > Configuration > External Digital Inputs > External Digital Inputs 1 to 8 Configuration point Selection/ Explanation setting option Designation up to 20 text characters Designation of the external digital input Hold value Nonvolatile storage of the last binary value re- ceived when the device restarts...
Page 197 10 Configuration Configuration point Selection/ Explanation setting option K-factor 0 to. 99999 l Ratio of the pulse count to flow rate (pulses per liter) The K-factor can be obtained from the documen- tation for the fitting in which the flow rate sensor (e.g.
Page 198 10 Configuration Configuration point Selection/ Explanation setting option Total quantity only available with flow measurement activat- hourly daily Activation of the flow rate quantity counter weekly monthly The setting establishes the automatic reset cy- annually cle. unlimited In addition, the flow rate quantity counters can be reset manually at the functional level or via a dig- ital signal (reset input).
Page 199: Retrofitting Optional Boards
11 Retrofitting optional boards 11.1 Inserting optional boards DANGER! Insertion and removal of optional boards must be performed only by qualified personnel. To ensure electrical safety, country-specific regulations must be ob- served. The following step-by-step table explains in detail the procedure for retrofitting optional boards: Step Action...
Page 200 11 Retrofitting optional boards Step Action Disconnect all screw terminals and interface cables connected at the rear of the device. To prevent connections being interchanged, note down the assignment of the connectors to the sockets. Undo (do not remove) the two countersunk screws on the bottom of the case and remove the pan head screw on the side of the case.
Page 201 11 Retrofitting optional boards Step Action Insert the optional board in the selected slot. Ensure that the board is seated correctly. Fill all empty slots with plastic board frames. Re-insert the rear panel of the case and fasten with 3 screws. Make sure that all the toothed lock washers for securing the screws are re-inserted (see Step 4).
Page 202: Ci Base Calibration
When the battery is empty a battery alarm will indicate that status. The battery must be exchanged before it is empty. The bat- tery must be exchanged by the JUMO Service department! In this case, send in the device!
Page 203 The default settings authorize the "Master" and "Service" users for this. v Chapter 8.1.1 "Passwords and user rights", Page 75 Ensure that the electronics of the JUMO AQUIS touch P have reached operating temperature. You can view the board tempera- ture at: Device Menu r Service r Service Data r "Internal Data"...
Page 204 11 Retrofitting optional boards Step Action Place the wire of the calibration sensor with 2 windings through the opening in the Ci sensor without connecting the ends of the wires. Start the Ci base calibration Device Menu r Service r Ci Base Calibration IN 7 to 8 Enter the cell constant for the sensor and confirm by pressing "OK".
Page 205 11 Retrofitting optional boards Step Action Connect the ends of the wires forming the conductor loop of the calibration adapter. Set the calibration adapter to the resistance value shown in the in- struction text in the display (in the example: 20kΩ). Once the mea- surement displayed has stabilized, confirm by pressing "OK".
Page 206 11 Retrofitting optional boards Step Action Once all measurings have been confirmed, a summary of the cali- bration data acquired appears. Confirm by pressing "OK". If the Ci base calibration fails, the procedure is canceled without acceptance of the calibration data. Protocol after successful Ci base calibration...
Page 207: Calibration In General
12 Calibration in general 12.1 Notes WARNING! During the calibration, the relays and analog output signals assume the config- ured states! 12.2 General information The actual electrical characteristics of analysis sensors always deviate some- what from the nominal specifications. The reasons for this include: •...
Page 208 12 Calibration in general • You must be logged in as a user with the right to perform calibrations. Fac- tory-preset users have all of these rights. v „Passwords and user rights“, Page 75 • You must ensure that the calibration default settings for the individual analy- sis inputs and, possibly, the universal inputs are set correctly.
Page 209: Calibration Logbook
12 Calibration in general 12.3 Calibration logbook A separate logbook is maintained for each analysis and universal input. The last 10 successful calibrations of the input concerned are saved in the cal- ibration logbook. Canceled or failed calibrations (calibrations outside the per- missible limits) are not saved in the logbook, but rather noted in the event list.
Page 210 Tapping the "Details" button opens the selected logbook entry in the detail view. The detail view displays a table with all calibration values from a calibration pro- cedure. The "Service" button is used for diagnostic purposes by trained person- nel or JUMO Service.
Page 211 12 Calibration in general Assessment criteria pH calibrations (glass electrodes and ISFET connected to analysis measuring inputs as well as standard sig- nals connected to universal inputs) Calibration value [unit] — — < ≤ < < ≤ < Zero point [pH] 6 to 8 <...
Page 212 12 Calibration in general Calibration of conductivity sensors (analysis measuring inputs and standard signals connected to universal inputs) Calibration value [unit] — — < ≤ < < ≤ 150 < Rel. cell constant (CR) [%] 75 to 125 < ≤ <...
Page 213: Calibrating A Ph Measuring Chain
The three- point calibration can be performed only for pH sensors on analysis inputs. It is not available for JUMO digiLine pH sensors. This method requires 3 buffer solutions with defined pH-values as references.
Page 214: Calibration Default Settings For Ph Sensors
13 Calibrating a pH measuring chain 13.2.2 Calibration default settings for pH sensors Before you can perform a calibration, you must first enter the necessary calibra- tion default settings. The possible settings for the pH Calibration are described in the following. Open the calibration default settings: Device Menu >...
Page 215 "pH buf- preferably for calibrating and fer 1 to 3" are hidden. adjusting technical pH mea- You need the JUMO PC setup program suring instruments acc. to DIN to edit buffer set tables. 19267...
Page 216 13 Calibrating a pH measuring chain Parameters Possible settings Explanation Temperature com- Selection from Analog selection Temperature input for automatic sens- pensation ing of the test/sample solution tempera- ture during the calibration...
Page 217: Ph Calibration Routines
Device Menu > Calibration > Select Analysis Input for pH/redox/ > Open Zero-Point Calibration for pH sensors with JUMO digiLine electronics: Device Menu > Calibration > Digital Sensor 1 to 6 > Open Zero- Point Calibration...
Page 218 13 Calibrating a pH measuring chain Step Action Entry of the pH-value of the buffer solution • without buffer recognition: Check whether the "pH buffer 1" matches the pH-value of the buffer solution used. If a buffer set table was not specified, the "buffer 1 pH"...
Page 219: Two-Point And Three-Point Calibration
Device Menu > Calibration > Analysis Input Select Analysis Input for pH/redox/NH > Open Two-Point or Three-Point Calibration for pH sensors with JUMO digiLine electronics: Device Menu > Calibration > Digital Sensor 1 to 6 > Open Two- Point Calibration...
Page 220 13 Calibrating a pH measuring chain Step Action Entry of the pH-value of the buffer solution • without buffer recognition: Check whether the "pH buffer 1" matches the pH-value of the buffer solution used. If a buffer set table was not specified, the "buffer 1 pH"...
Page 221: Calibrating Redox Sensors
14 Calibrating redox sensors 14.1 Important information WARNING! During the calibration, the relays and analog output signals assume the config- ured states! The response of the output signals is set for each output in its "Re- sponse at calibration" configuration point. ⇨...
Page 222: Calibration Default Settings For Redox Sensors
14 Calibrating redox sensors 14.2.2 Calibration default settings for Redox sensors Before you can perform a calibration, you must first enter the necessary calibra- tion default settings. The possible settings for the Redox calibration are de- scribed in the following. Open the calibration default settings: Device Menu >...
Page 223: Redox Calibration Routines
Device Menu > Calibration > Select Analysis Input for pH/redox/ > Zero-Point Calibration for redox sensors with JUMO digiLine electronics: Device Menu > Calibration > Digital Sensor 1 to 6 > Zero-Point Calibration Check that the "Redox test solution" value displayed matches the Redox value of the test solution.
Page 224 14 Calibrating redox sensors Step Action Press "Yes" to accept the Calibration values determined and enter the Calibration in the Calibration logbook. Press "No" to discard the results.
Page 225: Two-Point Calibration
Device Menu > Calibration > Select Analysis Input for pH/redox/ > Two-Point Calibration for redox sensors with JUMO digiLine electronics: Device Menu > Calibration > Digital Sensor 1 to 6 > Two-Point Calibration Enter the concentration value of the first reference solution in per- cent.
Page 226 14 Calibrating redox sensors...
Page 227: Calibrating Ammonia Sensors
15 Calibrating ammonia sensors 15.1 Notes WARNING! During the calibration, the relays and analog output signals assume the config- ured states! The response of the output signals is set for each output in its "Re- sponse at calibration" configuration point. ⇨...
Page 228: Ammonia Calibration Routines
15 Calibrating ammonia sensors 15.3 Ammonia calibration routines NOTE! You must be logged in with corresponding user rights to perform calibrations. v Chapter 8.2.1 "Log-on/Log-out", Page 89 15.3.1 Zero-point calibration Step Action Start the Zero-point calibration. Device menu r Calibration r Select Analysis Input for pH/Redox/ r Zero-Point Calibration Clean the ammonia electrode and immerse it in the ammonia-free test solution.
Page 229: Calibrating Cr Conductivity Sensors
16 Calibrating CR conductivity sensors 16.1 Notes WARNING! During the calibration, the relays and analog output signals assume the config- ured states! The response of the output signals is set for each output in its "Re- sponse at calibration" configuration point. ⇨...
Page 230: Calibration Default Settings For Cr Conductivity Sensors
16 Calibrating CR conductivity sensors 16.2.2 Calibration default settings for CR conductivity sensors Before you can perform a calibration, you must first enter the necessary calibra- tion default settings. The possible settings for the CR calibration are described in the following. Open the calibration default settings: Device menu r Calibration r Select CR Analysis Input r Calibration Default Settings...
Page 231 16 Calibrating CR conductivity sensors Calibration default settings for calibrating the relative cell constant Parameter Setting options Explanation Reference conductivi- 0 to 9999 mS/cm Conductivity of the reference solution Calibration default settings for calibrating the temperature coefficient Parameter Setting options Explanation Temperature com- Selection from...
Page 232: Cr Calibration Routines
16 Calibrating CR conductivity sensors 16.3 CR calibration routines NOTE! Conductivity measuring inputs can be configured with measuring range change- over. Accordingly, calibrations must be performed for all "accessible measuring ranges". NOTE! You must be logged in with corresponding user rights to perform calibrations. v Chapter 8.2.1 "Log-on/Log-out", Page 89 16.3.1 Calibrating the relative cell constant...
Page 233 16 Calibrating CR conductivity sensors Step Action Ensure that • the sensor has been cleaned and is immersed in the test solu- tion, • the set reference conductivity matches the conductivity value of the test solution. Wait until the measuring value displayed stabilizes and then con- firm the result of the measurement by pressing "OK".
Page 234: Calibrating The Temperature Coefficient
16 Calibrating CR conductivity sensors 16.3.2 Calibrating the temperature coefficient Step Action Start calibration of the temperature coefficient. Device menu r Calibration r Select CR Analysis Input r TC Cal- ibration Clean the sensor and immerse it in the sample solution. Ensure that the rel.
Page 235 16 Calibrating CR conductivity sensors Step Action • with temperature sensing A prerequisite is that temperature compensation was specified in the calibration default settings. Bring the temperature of the sample solution to the requested val- ues of the reference and operation temperatures in succession. The order does not matter.
Page 236 16 Calibrating CR conductivity sensors...
Page 237: Calibrating Ci Conductivity Sensors
17 Calibrating Ci conductivity sensors 17.1 Important information WARNING! During the calibration, the relays and analog output signals assume the config- ured states! The response of the output signals is set for each output in its "Re- sponse at calibration" configuration point. ⇨...
Page 238: Calibration Default Settings For Ci Conductivity Sensors
17 Calibrating Ci conductivity sensors TC curve (for nonlinear temperature coefficients) If the conductivity of a liquid whose temperature coefficient changes with tem- perature has to be measured, this method can determine 5 temperature coeffi- cients for 5 temperature intervals. In this way, it is possible to determine a good approximation of the temperature coefficient curve.
Page 239 17 Calibrating Ci conductivity sensors Sample screen: Ci calibration default settings The calibration default settings enable the calibration routines to be accessed in the particular calibration menu. Calibration routines that are not enabled are not visible in the calibration menu. Additional calibration default settings are explained in the following table.
Page 240 17 Calibrating Ci conductivity sensors Calibration default settings for calibrating the TC curve Parameter Setting options Explanation Temperature com- Selection from Temperature input for automatic sensing of the test/ pensation analog selection sample solution temperature during the calibration Starting temperature -50 to 250 °C The starting and final temperatures of the range for which a temperature coefficient curve is to be deter-...
Page 241: Ci Calibration Routines
17 Calibrating Ci conductivity sensors 17.3 Ci calibration routines NOTE! Conductivity measuring inputs can be configured with measuring range change- over. Accordingly, calibrations must be performed for all "accessible measuring ranges". NOTE! You must be logged in with corresponding user rights to perform calibrations. v Chapter 8.2.1 "Log-on/Log-out", Page 89 NOTE! Analysis inputs for inductive conductivity measurements (Ci) must undergo a...
Page 242 17 Calibrating Ci conductivity sensors Step Action Ensure that • the sensor has been cleaned and is immersed in the test solu- tion, • the set reference conductivity matches the conductivity value of the test solution. Wait until the measuring value displayed stabilizes and then con- firm the result of the measurement by pressing "OK".
Page 243: Calibrating The Temperature Coefficient (Tc)
17 Calibrating Ci conductivity sensors 17.3.2 Calibrating the temperature coefficient (TC) Step Action Start calibration of the temperature coefficient. Device Settings Menu r Calibration r Select Ci Analysis Input or Universal Input r TC Calibration Clean the sensor and immerse it in the sample solution. Ensure that the rel.
Page 244 17 Calibrating Ci conductivity sensors Step Action • with temperature sensing A prerequisite is that temperature compensation was specified in the calibration the default settings. Bring the temperature of the sample solution to the requested val- ues of the reference and operation temperatures in succession. The order does not matter.
Page 245: Calibrating The Tc-Curve
17 Calibrating Ci conductivity sensors 17.3.3 Calibrating the TC-Curve Step Action Start the desired calibration of the TC-Curve. Device Menu r Calibration r Analysis Input 1 to 4 (Ci) and/or Universal Input 1 to 3 r TC-Curve Clean the sensor and immerse it in the sample solution. Ensure that the rel.
Page 246 17 Calibrating Ci conductivity sensors...
Page 247: Calibrating Universal Inputs
18 Calibrating universal inputs 18.1 Important information WARNING! During the calibration, the relays and analog output signals assume the config- ured states! The response of the output signals is set for each output in its "Re- sponse at calibration" configuration point. ⇨...
Page 248 18 Calibrating universal inputs Two-point calibration The zero point and slope of the measuring characteristic curve are determined with the aid of 2 measurings of 2 different reference solutions. Two test solutions with defined values of the respective process variable are needed as a references.
Page 249: Universal Inputs Calibration Default Settings
18 Calibrating universal inputs 18.2.2 Universal inputs calibration default settings The calibration default setting available for selection depends on the configura- tion settings of the universal input. Open the calibration default settings: Device Menu r Calibration r Select Universal Input r Calibration Default Settings Calibration default settings for the individual operation modes •...
Page 250 18 Calibrating universal inputs • free chlorine, ph/Temp.-compensated In the universal inputs calibration default settings for the "free chlorine, ph/T- compensated" operation mode, the slope calibration is enabled and pre-config- ured as the only available calibration routine. Sample screen: Universal input calibration default settings in the "free chlorine, pH/T-com- pensated"...
Page 251: Universal Input Calibration Routines
18 Calibrating universal inputs 18.3 Universal input calibration routines This chapter explains the universal inputs calibration routines for the "linear scal- ing" and "free chlorine, ph/T-compensated" operation modes. The explanations in the corresponding calibration chapters for the "pH value measurement" and "Conductivity measurement" operation modes apply, except that three-point calibration for pH sensors is not available for universal inputs (see Chapter 18.2.1 "Calibration methods for universal inputs", Page 245).
Page 252: Zero Point/Slope Calibration (Linear Scaling)
18 Calibrating universal inputs 18.3.1 Zero point/slope calibration (linear scaling) Step Action Start the desired Calibration routine. Device Menu r Calibration r Select Universal Input r Zero-point calibration Clean the sensor and immerse it in the test solution. Wait until the measured value displayed stabilizes and then confirm the result of the measurement by pressing "OK".
Page 253: Two-Point Calibration (Linear Scaling)
18 Calibrating universal inputs 18.3.2 Two-point calibration (linear scaling) Step Action Start the desired Calibration routine. Device Menu r Calibration r Select Universal Input r Two-point calibration Clean the sensor and immerse it in the first test solution. Wait until the measuring value displayed stabiliz- es and then confirm the result of the measurement by pressing "OK".
Page 254 18 Calibrating universal inputs...
Page 255: Slope Calibration (Free Chlorine, Ph/Temp.-Compensated)
18 Calibrating universal inputs 18.3.3 Slope calibration (free chlorine, ph/Temp.-compensated) Step Action Start the slope calibration. Device Menu r Calibration r Select Universal Input r Slope Cal- ibration Clean the sensor and immerse it in the test solution. Check the displayed values for the pH value and temperature.
Page 256 18 Calibrating universal inputs Step Action Press "Yes" to accept the Calibration values determined and enter the Calibration in the Calibration logbook. Press "No" to discard the results.
Page 257: Calibrating O-Do Sensors
19 Calibrating O-DO sensors 19.1 Important information WARNING! During the calibration, the relays and analog output signals assume the config- ured states! The response of the output signals is set for each output in its "Re- sponse at calibration" configuration point. ⇨...
Page 258: Calibration Methods For O-Do Sensors
19 Calibrating O-DO sensors 19.2.1 Calibration methods for O-DO sensors End value calibration With end value calibration, the slope of the sensor is calibrated beyond the de- fined state of 100 % oxygen saturation. This state can in principle be achieved in two ways: •...
Page 259 Temperature input: The integrated temperature probe of the O-DO sensor supplies the compensation tempera- ture. Interface: The AQUIS touch p transmits the compensation temperature to the sensor electronics via the interface. The source of the compensation tempera- ture is set in the configuration point "Compensation temperature".
Page 260: O-Do Calibration Routine
19 Calibrating O-DO sensors 19.3 O-DO calibration routine NOTE! You must be logged in with corresponding user rights to perform calibrations. ⇨ Chapter 8.2.1 "Log-on/Log-out", page 89 NOTE! A digital sensor can only be calibrated if it is linked. ⇨ Chapter 8.2.7 "Digital sensors", page 95 19.3.1 End value calibration...
Page 261 19 Calibrating O-DO sensors Step Action The device displays the current measured value of oxygen satura- tion and the test material temperature. The setpoint value for oxy- gen saturation (100 %Sat) is set automatically by the device. The user does not need to make any entries here. Wait until the measured value displayed stabilizes and then con- firm the result of the measurement by pressing "OK"...
Page 262: Two-Point Calibration
19 Calibrating O-DO sensors 19.3.2 Two-point Calibration Step Action Start the two-point calibration. Device Menu > Calibration > Digital Sensor 1 to 6 > Two-Point Calibration To determine the zero point, prepare a water sulfite solution (sulfite concentration < 2 %). If temperature compensation was not specified in the calibration default settings, enter the temperature of the test materials used here manually.
Page 263 19 Calibrating O-DO sensors Step Action Immerse the sensor in air-saturated water or position it in water va- por-saturated air (see Chapter 19.2.1 "Calibration methods for O- DO sensors", page 256). If you use water vapor-saturated air, en- sure constant air pressure, constant temperature and that no water drops adhere to the membrane during the calibration procedure.
Page 264 19 Calibrating O-DO sensors...
Page 265: Calibrating Turbidity Sensors
20 Calibrating turbidity sensors 20.1 Important information WARNING! During the calibration, the relays and analog output signals assume the config- ured states! The response of the output signals is set for each output in its "Re- sponse at calibration" configuration point. ⇨...
Page 266: Calibration Presets For Turbidity Sensors
20 Calibrating turbidity sensors 20.2.2 Calibration presets for turbidity sensors Before you can perform a calibration, you must first enter the necessary calibra- tion default settings. The possible settings for the calibration of turbidity sensors are described in the following. Open the calibration default settings: Device Menu >...
Page 267: Calibration Routines For Turbidity Sensors
20 Calibrating turbidity sensors 20.3 Calibration routines for turbidity sensors NOTE! Turbidity sensors can be configured with automatic selection of the measuring range. Accordingly, calibrations must be performed for all "accessible measur- ing ranges". NOTE! You must be logged in with corresponding user rights to perform calibrations. ⇨...
Page 268 20 Calibrating turbidity sensors Step Action A protocol summarizing the calibration values determined then ap- pears. Acknowledge the protocol by pressing "OK". Failed calibrations are canceled at this point and discarded. Press "Yes" to accept the Calibration values determined and enter the Calibration in the Calibration logbook.
Page 269: Calibration During Disinfection Measurements
Chapter 10.5 "Analog inputs", page 139 21.2 General information JUMO digital sensors for disinfection measurands (chlorine, hydrogen peroxide, peracetic acid, ozone, chlorine dioxide and bromide) are calibrated by means of suitable comparison measurements in the measured value for the sensor type concerned (e.g.
Page 270: Calibration Methods For Disinfection Measurand Sensors
21 Calibration during disinfection measurements 21.2.1 Calibration methods for disinfection measurand sensors End value calibration For end value calibration, the slope of the sensor is calibrated by means of a comparison measurement (e.g. DPD method). Two-point Calibration With two-point calibration, the zero point and slope of the sensor are calibrated. This calibration method offers the greatest possible level of accuracy and is par- ticularly recommended for measurements of low concentration values.
Page 271 21 Calibration during disinfection measurements Calibration default settings for disinfection measurand sensors The calibration default settings enable the calibration routines to be accessed in the particular calibration menu. Calibration routines that are not enabled are not visible in the calibration menu. Additional calibration default settings are explained in the following table.
Page 272: Calibration Routine For Disinfection Measurands
21 Calibration during disinfection measurements 21.3 Calibration routine for disinfection measurands WARNING! Be sure to observe the information in the respective operating manual of the var- ious digital sensors for disinfection measurands with respect to calibration. De- pending on sensor type, run-in periods may need to be observed and the sensors built into an appropriate fitting.
Page 273 21 Calibration during disinfection measurements Step Action The device will show the current concentration measured value for the disinfection measurand. The user does not need to make any entries here. Wait until the measured value displayed stabilizes and then confirm by pressing "OK". Display of concentra- tion value Display of concentra-...
Page 274 21 Calibration during disinfection measurements Step Action A protocol summarizing the calibration values determined then ap- pears. Acknowledge the protocol by pressing "OK". Failed calibrations are canceled at this point and discarded. Press "Yes" to accept the Calibration values determined and enter the Calibration in the Calibration logbook.
Page 275: Two-Point Calibration
21 Calibration during disinfection measurements 21.3.2 Two-point Calibration WARNING! Steps 7 to 8 should be carried out very quickly, since the comparison measure- ment and the inputting of your result must be done promptly. Step Action Make sure that the sensor to be calibrated is built into a suitable fit- ting and had enough time to run-in before the calibration was start- ed.
Page 276 21 Calibration during disinfection measurements Step Action The device will show the current concentration measured value for the disinfection measurand. The user does not need to make any entries here. Wait until the measured value displayed stabilizes and then confirm by pressing "OK". Display of concentra- tion value Display of concentra-...
Page 277 21 Calibration during disinfection measurements Step Action A protocol summarizing the calibration values determined then ap- pears. Acknowledge the protocol by pressing "OK". Failed calibrations are canceled at this point and discarded. Press "Yes" to accept the Calibration values determined and enter the Calibration in the Calibration logbook.
Page 278 21 Calibration during disinfection measurements...
Page 279: Pc Setup Program
JUMO PC setup program. 22.1 General information All configuration data and parameterization can be edited offline with the JUMO PC setup program. Entire device configurations can be loaded into the device, exported from the device and saved on a PC/laptop.
Page 280: Installing The Jumo Pc Setup Program
DVD drive • USB host interface • LAN interface (Ethernet) NOTE Close all applications on your PC before starting installation of the JUMO PC setup program. 22.2.1 Procedure Step Action With the PC running, insert the CD supplied with the device into the drive and close it.
Page 281 • Full version Insert the license key that you received from JUMO Select the program folder to which the links for starting the software art be copied. The directory for the program files is determined automatically.
Page 282: Logging Onto The Setup Program
22 PC Setup Program To install the full version, you must acquire an appropriate license from JUMO. The contact data can be found on the back of this document. NOTE If the "30-days test version" option is selected during installation, the JUMO PC setup program is fully functional for 30 days.
Page 283: Rights In The Setup Program
22 PC Setup Program 22.3.1 Rights in the setup program Depending on the version and login, individual users have different rights in the PC setup program. The differences are summarized in the following table. Demo Service Specialist Users Version User rights Open Save, Save As, Delete...
Page 284: Quickstart Agent
22 PC Setup Program 22.4 QuickStart agent Installation During installation of the PC setup program, an additional program with the de- scription "QuickStart agent" is installed. This program starts automatically and appears as a symbol in the Windows taskbar. Example: "Show icons"...
Page 285 If autostart is inactive, i.e. the symbol does not appear in the taskbar, the Quick- Start agent can be started manually from the Windows Start menu. The Quick- Start agent is located in the same program group as the JUMO PC setup program.
Page 286: User Interface
22 PC Setup Program 22.5 User interface 22.5.1 Elements of the user interface Menu bar Toolbar Working range - Navigation tree (4) Work area – Display window Connection status Online data Menu bar The individual functions of the PC setup program are launched from the menu bar.
Page 287 22 PC Setup Program Moving the toolbar The user can change the position of the toolbar: Step Action Position the mouse pointer between two icon groups Left-click with the mouse button While holding down the left mouse button, move the toolbar to the desired location Release the left mouse button Possible positions of the toolbar:...
Page 288: Display Protection
22 PC Setup Program Online data The "Online data" function displays current process data in the PC setup pro- gram. The "Window" menu can be used to show or hide the online data window. File > Online Data The height of the window can be changed by moving the border of the working area or the "Connection status"...
Page 289 22 PC Setup Program When display protection is activated, all device settings in the PC setup program are concealed the next time the setup file is opened. To show the device settings in the PC setup program again, double-click the en- try "Display protection"...
Page 290 22 PC Setup Program...
Page 291: Editing The Setup File
Open an existing file: File > Open The working area (navigation tree and display window) shows the menu struc- ture with the individual setting options for the JUMO AQUIS touch S from within the JUMO PC setup program. Navigation tree...
Page 292 22 PC Setup Program Navigation tree Left-clicking (once) on the entry "Project" or on a certain module displays the as- sociated subitems in the display window. Clicking on the ("-") symbol closes a menu, clicking on the ("+") symbol opens a menu. Double-clicking on an entry (e.g.
Page 293: Menu Bar
22 PC Setup Program 22.6 Menu bar This chapter describes the menu bar functions. The order of the subchapters corresponds to the location of the menus in the menu bar (from left to right). 22.6.1 File menu Creates a new setup file in the working area. After selecting the "New" com- mand, the user can select from the following options: •...
Page 294 22 PC Setup Program Print preview (page view) ... The print results are displayed on screen. Several pages can be displayed and the view can be scaled. Printer setup ... Allows the printer settings to be changed. When a program starts, the Windows default printer is always used as the active printer.
Page 295: Data Transfer Menu
22 PC Setup Program 22.6.2 Data Transfer menu Establish Connection ... Opens the device connections list. The content of the device connections list is project-dependent. The device connections list contains all devices to which a connection can be established via the setup program. Devices can be added to or removed from the list.
Page 296 Imports a setup file in SET format from external mass storage (USB flash drive) into an open setup file. In this way, an SET file that was previously copied from the device to a USB flash drive can be opened for editing with the JUMO PC set- up program.
Page 297: Extras
(demo mode). Renew login / Change password Opens a window to activate user login. After the JUMO PC setup program has been installed, prompts for the user name and password do not appear until user login has been activated.
Page 298: Windows
22 PC Setup Program 22.6.4 Windows Cascaded Arranges all open setup windows in an overlapping arrangement. Left-clicking on a window brings it to the foreground. Tiled Arranges all open setup windows in a tiled arrangement. Left-clicking on a win- dow makes it the active window. Arrange icons Arranges the symbols for all minimized setup windows in the lower region of the user interface.
Page 299: Info
22 PC Setup Program 22.6.5 Info Setup info Displays information about the setup program, incl. the version number. The version number is important, for instance, when contacting the service hotline. Registered license numbers ... Shows all registered license numbers and any active options. The license num- bers and the information about active options are important, for instance, when contacting the service hotline.
Page 300: Connection To Device
USB connector cannot be prevented due to the lack of a captive connection. An existing connection is a requirement for data transfer between the JUMO PC setup program and system. In the menu bar, open: Data transfer > Establish Connection ...
Page 301 22 PC Setup Program there is no connection), the PC setup program opens the device connection list. The user must first highlight the device concerned in the device connection list and then press the "Establish connection" button. If a device should not be con- nected, the corresponding dialog ("Device connection list"...
Page 302: Configuring The Connection With The Assistant
22 PC Setup Program 22.7.2 Configuring the connection with the assistant The connection settings assistant assists the user with configuring a new con- nection. The assistant is always active after opening the device connections list (check mark set). It is started whenever a new entry is to be added to the device connection list.
Page 303 22 PC Setup Program Setup dialog - Device and type of connection Settings Setting item Selection/ Explanation setting option Device version Selection from Device version of the device to be con- dropdown list nected ⇨ Chapter 8.2.4 "Device information", page 93 Connection pre- Setup or ring mem- LAN interface (HTTP protocol), connec-...
Page 304 22 PC Setup Program Setup dialog - Device login Settings Setting item Selection/ Explanation setting option Do not log in Checkboxes Activate option (set checkmark) if connec- tion to the device takes place without login. Without logging in, some functions probably will not be available.
Page 305 22 PC Setup Program Setup dialog - TCP/IP port settings This dialog depends on the selected connection preset. The figure shows the case "Setup or ring buffer via HTTP proxy". Except for the parameters "Proxy" and "Proxy Port", the description applies also for the case "Setup or ring buffer via TCP/IP".
Page 306 22 PC Setup Program After the user clicks on the "Next" button, the assistant opens the next setup di- alog. Setup dialog - Overview of the settings To complete the configuration, the user is presented with an overview of the set- tings.
Page 307 22 PC Setup Program Setup dialog - USB interface settings on the PC If several devices are connected via a USB interface, one device must be se- lected here. Moreover, it is possible to activate various test criteria so that the connection to the device is established only upon a successful test.
Page 308 22 PC Setup Program To complete the configuration, the user is presented with an overview of the set- tings. An incorrect setting can be corrected by pressing the "Exit" button to re- open the setup dialog concerned and making the correction there. Clicking on the "Finish"...
Page 309: Configuring The Connection Without The Assistant
22 PC Setup Program 22.7.3 Configuring the connection without the assistant The assistant can be deactivated in the device connections list (remove the checkmark). ⇨ Chapter 22.7.1 "Device connections list", page 298 During configuration, the user is not guided to the next step - as with an active assistant - but instead must select the individual steps of the configuration on their own.
Page 310 22 PC Setup Program Step Action Make the protocol and interface settings and click on OK. If neces- sary, click on the "Extended" button beforehand to make additional settings for communication. Close all previously opened setup dialogs (windows) by clicking on the "OK"...
Page 311: Searching For A Device In The Network
22 PC Setup Program 22.7.4 Searching for a device in the network This function assists the user with selecting the IP address or the host name for the device of interest. A "Search" button is located to the right of the entry field in the dialog for entering the IP address or host name.
Page 312 22 PC Setup Program enters the host name (DNS name) in the input field. You can use the "Check and convert host name" function to establish the IP ad- dress and transfer it to the input field (subsequent editing may be necessary in the input field).
Page 313: Setting Up The Device With The Jumo Pc Setup Program
22 PC Setup Program 22.8 Setting up the device with the JUMO PC setup program 22.8.1 Identification Identifying the device version All configuration data and the hardware installed in a connected or network-ac- cessible device can be read and displayed here. In addition, the hardware in- stalled in a device can be specified manually in order to create a setup file for a device that is not connected (e.
Page 314 22 PC Setup Program After you have selected the desired device and clicked the "Next" button, the graphical overview showing the installed option boards opens. If "User-defined settings" was selected, the option boards installed can be manually specified for the setup file here. In this case, use drag and drop to select the desired option board symbols from the menu bar above and place them on the intended expan- sion slots marked in green.
Page 315: Configuring And Parameterizing
Chapter 9 "Parameterization", page 127 22.8.3 User list The factory-entered user names, passwords, and user rights (see Chapter 8.1.1 "Passwords and user rights", page 75) can be changed with the JUMO PC setup program. Configuration point Selection/ Explanation setting option...
Page 316 22 PC Setup Program Character table for passwords Characters for user login can be added or changed in character tables 5 to 16. Character tables 1 to 4 cannot be changed. Recipe data cannot be changed. Classification selection field Visualization of the keyboard layout in the Device menu Entry field for character set Header character set for labeling the tab in the device settings menu Table 1 to 16 selection field...
Page 317 22 PC Setup Program Configuring public Rights The access rights for all users who are not logged in are set here. Open Settings: Only Setup > User List > Public Rights...
Page 318: Country Settings
22 PC Setup Program Configuring user rights The user rights for each individual user account are set here. A corresponding user login is required to exercise the respective user rights. ⇨ Chapter 8.1.1 "Passwords and user rights", page 75 ⇨ Chapter 8.2.1 "Log-on/Log-out", page 89 Open Settings: Only Setup >...
Page 319 22 PC Setup Program Setting item Selection/ Explanation setting option Specification No entry possible Internal Specification (only for service purposes to identify the Assigned automatically language) National lan- Use factory-set text or enter a Description of the language different text guage Date format Display format for the date...
Page 320 22 PC Setup Program Language button Languages can be created, edited, and deleted with the "Language" button. New languages can be created on the basis of already existing languages. Available languages as well as languages from libraries can be selected as a template for new languages in the open setup.
Page 321 22 PC Setup Program From a language in the current library (internal library of the JUMO PC set- up program) Step Action Open Country Settings: Only Setup (double-click) > Country Settings (double-click) Open the current library: Button "Language" > New Language > From Current Library...
Page 322 22 PC Setup Program Editing languages NOTE Standard languages cannot be edited. Only languages created by the user can be edited with the JUMO PC setup program. ⇨ Chapter "Creating a new language", page 318 The following figure shows the source language text on the left and the target language text on the right.
Page 323 22 PC Setup Program Toolbar The toolbar gives the user access to various functions for editing text. Explanation Button Search text Replace text with other text Use filter to reduce the number of texts in the list Sort texts alphabetically Display text ID (instead of Row number) Mark text as "not edited closed votes (red text) Mark text as "to be checked"...
Page 324: Device Character Set
22 PC Setup Program 22.8.5 Device character set When creating a new language, it is also possible to specify the characters avail- able on the device for Text inputs (virtual keyboard). Entry field for character selection The characters that are entered here are offered for selection by the vir- tual keyboard on the device later upon pressing the corresponding key.
Page 325 22 PC Setup Program To edit the character set for the device keyboard, proceed as follows: Step Action Left-click the virtual key in the "Character entry" field (Example: "+"). The characters assigned to the key appear in the text field. The first character from the left corresponds to the character on the key.
Page 326: User Levels
The user-defined parameter and settings list at the User level are created in this menu of the JUMO PC setup program. The configuration item "Source of desig- nation" can be used to select between your own designation of the individual user level (configuration item "Level designation") and the designation of a se-...
Page 327: Formula
Formula must be created with the JUMO PC setup program. During data trans- fer to the device, the formula are then loaded into the JUMO AQUIS touch P to- gether with the setup. For formula that have already been loaded into the device, the configuration data below the formula entry field can also be set on the device as an alternative.
Page 328: Logic Formula
Logic formula must be created with the JUMO PC setup program. During data transfer to the device, the formula are then loaded into the JUMO AQUIS touch P together with the setup. For formula that have already been loaded into the device, the description below the formula entry field and the alarm configuration can also be set on the device as an alternative.
Page 329: Customer-Specific Linearization
JUMO PC setup program. During data transfer to the device, the linear- ization is then loaded into the JUMO AQUIS touch P together with the setup. Af- ter the linearizations have been loaded into the device, they can be used when configuring the following types of analog inputs: •...
Page 330 22 PC Setup Program Symbol buttons – Basic values table "Insert line" Inserts a new line above the highlighted line "Delete line" Deletes the highlighted line from the Basic values table "Delete table" Delete all entries in the Basic values table "Generate formula"...
Page 331 Y-column. The intervals between two value pairs are calculated internally by linear interpolation. The Y-values function as measuring values for input at the analog inputs of the AQUIS touch P. Formula Coefficients of a only with "Formula" as "Linearization type":...
Page 332: Buffer Set Tables
22 PC Setup Program 22.8.10 Buffer set tables Three buffer set tables are created in the JUMO AQUIS touch P. Buffer set tables are needed for calibration of pH sensors when using automatic buffer detection. ⇨ Chapter 13 "Calibrating a pH measuring chain", page 211 These Buffer set tables can be changed as often as necessary here.
Page 333: Process Screens
Up to 8 "Process screens" can be created in the Operation loop of the JUMO AQUIS touch P in order to design a dynamic overview display of a system or a process. Process screens must be created with the JUMO PC setup program and loaded into the JUMO AQUIS touch P together with the configuration.
Page 334 22 PC Setup Program Process screen editor Process screens for the JUMO AQUIS touch P must be created with the JUMO PC setup program. These are then transferred from the PC to the device togeth- er with the setup. Description of the Process screen (appears in the title bar of the Process screen)
Page 335 22 PC Setup Program Process screen Editor buttons "Cut" Copies the highlighted object to the clipboard and deletes it from the list "Copy" Copies the highlighted object to the clipboard "Insert" Inserts an object from the clipboard at the highlighted posi- tion in the list;...
Page 336 22 PC Setup Program Preview The "Preview" button in the Process screen Editor opens the preview. The con- cept for the Process screen can be viewed here. The Process screen is dis- played as it will appear later on the device. Objects can be repositioned via drag and drop.
Page 337 22 PC Setup Program "Move" Opens a window with arrow buttons from moving objects one step at a time Single arrow: Move by 1 pixel Double arrow: Move by 10 pixels "Align left" Simultaneously aligns several highlighted objects along the left edge of the object highlighted first "Align right"...
Page 338 22 PC Setup Program Background The next level in front of the background color level is reserved for the back- ground. Any image in the image list can be selected and displayed here in front of the background color level. User-defined images can be imported into the image list.
Page 339 22 PC Setup Program Importing/exporting images Step Action Open the image list Only Setup > Process Screens > "Process screen 1" tab > "Back- ground" button > "Image List" button Import: Highlight an image in the list that you wish to overwrite with the new one and click the "Replace"...
Page 340 22 PC Setup Program Objects The object list of the Process screen Editor contains 100 empty objects. Double- clicking on an entry or clicking the "Edit" button in the Process screen Editor opens a dialog for configuring, designing, and formatting the corresponding ob- ject in detail.
Page 341 22 PC Setup Program Analog signals: The numerical value of an analog signal is displayed in the Process screen. Configuration item Selection/ Explanation setting option Visible Checkmark in the Checkmark set: Object is displayed checkbox Empty checkbox: Object is hidden X position 0 to 315 pixels X-coordinate of the top left corner of the picto-...
Page 342 22 PC Setup Program Digital signals: A binary signal has two plain texts associated with it. Depending on the value of the binary signal, one of the two plain texts is displayed. Example: A manual / automatic selector switch needs to be visualized. Depend- ing on the switch position, either "Manual mode"...
Page 343 22 PC Setup Program Universal display: Display of configuration settings, e.g. units or identifiers of an internal analog signal source for the JUMO AQUIS touch P. Configuration item Selection/ Explanation setting option Visible Checkmark in the Checkmark set: Object is displayed...
Page 344 22 PC Setup Program Text: Plain text for labeling of visualization elements. Configuration item Selection/ Explanation setting option Visible Checkmark in the Checkmark set: Object is displayed checkbox Empty checkbox: Object is hidden X position 0 to 315 pixels X-coordinate of the top left corner of the picto- gram Y position 0 to 181 pixels...
Page 345 22 PC Setup Program Configuration item Selection/ Explanation setting option Color Selection from For rectangles only: color palette Fill color of the rectangle (transparent for objects) Frame type None Selection of a frame format Fine Bold Upper case Lower case Bar graph: Vertical or horizontal bar for visualizing analog values.
Page 346 22 PC Setup Program Example: Objects now need to be added to the sample Process screen from the previous chapter (Chapter "Background", page 336). Valves and pumps are represented by pictograms. Two analog displays serve as the process value dis- play.
Page 347: Email
⇨ Chapter 22.10.3 "Ethernet", page 357 The JUMO AQUIS touch P can be configured for event-controlled sending of e- mail notifications. Up to 5 e-mail templates can be stored in the JUMO AQUIS touch P. Sending of the e-mail is triggered by a rising edge of the binary signal in the "Alarm signal"...
Page 348 22 PC Setup Program SMTP server: Used to send e-mails. In many networks, the authorization to send e-mails via a mail account must be released by previously logging in at the corresponding POP3 server. Proxy: Serves as a gateway from the local company network to the worldwide Internet. It is also used for the conversion of "local"...
Page 349 22 PC Setup Program Setting up e-mail templates Open Settings: Only Setup > e-mail (double-click) > "e-mail 1 to 5" tab The following table explains the settings for event-controlled sending of e-mails. Configuration point Selection/ Explanation setting option E-mail addresses Enter a valid e-mail ad- Up to 3 e-mail addresses to each of which a par- 1 to 3...
Page 350 22 PC Setup Program Setting up the e-mail server To send messages, you must specify the data for the outgoing mail server. Open the server settings window and enter the information here. You can obtain the server settings from your e-mail service provider or network administrator. Open the dialog for the server settings: Only Setup >...
Page 351 22 PC Setup Program NOTE An e-mail server within the company network must be entered (not on the In- ternet or accessible without proxy addressing)! This mail server should be able to also forward e-mails to the Internet.
Page 352 22 PC Setup Program Procedure for sending an e-mail over the Internet To better understand the process of sending an e-mail and correct any errors in the configuration of e-mail servers and Ethernet, a graphical representation of the processes is presented in the following. Conditions fulfilled to send an e-mail? Loading of current...
Page 353 22 PC Setup Program Checking the e-mail function Proper execution of the e-mail sending process can be checked in the event list. When an e-mail is sent successfully, a corresponding entry is made in the event list. Entries are made in the event list even in the case of a fault and can be help- ful when diagnosing a problem.
Page 354: Web Server
NOTE Creating websites requires the appropriate knowledge about website programming and specifying the webserver In the JUMO AQUIS touch Customer-specific websites can be imported into the configuration of the web- server. To edit an already saved website, it can be exported. Data from the...
Page 355 22 PC Setup Program Open Settings: Only Setup > Webserver Configuration (double-click) (2) (3) "Import Web" button "Export Web" button "Delete Web" button Window with tree view of the saved website "HTML Tags" button Opens a dialog for copying the IDs of internal data from the device memory These IDs are needed to request the internal data from the web document.
Page 356: Diagnostics
22.9.3 Digital sensor connection list If the JUMO AQUIS touch P must be replaced, e.g. because of a defect in the device, and a backup of the configuration is available as a setup file, the config- uration can be loaded into the new device. However, the original links of the digital sensors to the corresponding inputs for the digital sensors must be rees- tablished manually.
Page 357 Procedure for linking digital sensors following device replacement: Step Action Using the JUMO PC setup program, load the originally backed up configuration into the device. Press the "Print" button or File > Print In the print selection list, select "Digital Sensor Connection List".
Page 358: Online Parameters
The device must thus be connected via a USB or Ethernet port to the PC on which the JUMO PC setup program is installed, and a connection be- tween the JUMO PC setup program and device must be established.
Page 359: Ethernet
⇨ See chapter 10.18 "Ethernet", page 188 NOTE The Ethernet settings are entered in the online parameters in the JUMO PC setup program. The IP configuration of the device can also be changed from the PC if the PC and device are connected via Ethernet. In this case, changing the IP address...
Page 360: Approval Of Extra Codes
• Enter activation code After you have sent the code number for the desired extra code to JUMO, you receive the activation code for this option. Following correct entry of the activation code, this option is available for use in the device.
Page 361: Adjusting / Testing
When "Adjusting / Testing" is opened, the outputs assume undefined states. For this reason, "Adjusting / Testing" may not be opened during operation of equipment being controlled by the JUMO AQUIS touch P. Numerous testing functions that are available in similar form in the device set- tings menu at the "Functional level"...
Page 362 22 PC Setup Program Analog inputs Proper operation of the analog inputs of the device can be checked here. In addition to selecting the analog input and signal type, the line frequency of the power supplied to the device must be set in order to test an analog input correct- ly.
Page 363 22 PC Setup Program Analog outputs Proper operation of the analog outputs of the device can be checked here. A desired output value can be specified in the "Setpoint value" field for the se- lected output and signal type set. Pressing the "Test" button starts the test. During the test, a window for monitoring the output signal is displayed.
Page 364 22 PC Setup Program Binary outputs Proper operation of the Digital outputs of the device can be checked here. After setting checkmarks in the option fields, the Digital outputs of the device can be controlled manually via the PC setup program. The "Set All" and "Delete All" buttons allow all Digital outputs to be switched on and off at once.
Page 365 22 PC Setup Program Digital inputs Proper operation of the Digital inputs of the device can be checked here. The "Read Continuously" button starts a continuous test that can be stopped by pressing the "Stop" button. During this test, the binary values of the device in- puts are read continuously and displayed in acc.
Page 366 Touch In this view, touchscreen calibration (see "Calibrating the touchscreen", page 95) can be started from the JUMO PC setup program. In addition, the calibration data for the touchscreen are displayed in detail. These are used to diagnose problems with touch operation together with JUMO Service.
Page 367: Technical Data
23 Technical data 23.1 Analog inputs base unit 23.1.1 Temperature measuring input (IN 4) Probe-/Signal type Connection type Measuring Measuring accu- Ambient range racy temperature influence -200 to +850 °C ≤ 0.05% of MR ≤ 50 ppm/K Pt100 DIN EN 60751 2-wire/3-wire -200 to +850 °C ≤...
Page 368: Temperature Measuring Input (In 5)
23 Technical data 23.1.2 Temperature measuring input (IN 5) Probe-/Signal type Connection type Measuring Measuring accu- Ambient range racy temperature influence -200 to +850 °C ≤ 0.05% of MR ≤ 50 ppm/K Pt100 DIN EN 60751 2-wire/3-wire -200 to +850 °C ≤ 0.1% of MR ≤...
Page 369: Analog Inputs Optional Boards
23 Technical data 23.2 Analog inputs optional boards 23.2.1 Universal input (IN 11, IN 12) Probe-/Signal type Connection type Measuring Measuring accu- Ambient range racy temperature influence -200 to +850 °C ≤ 0.05% of MR ≤ 50 ppm/K Pt100 DIN EN 60751 2-wire/3-wire -200 to +850 °C ≤...
Page 370: Analysis Input: Cr (Resistive Conductivity)
23 Technical data 23.2.3 Analysis input: CR (resistive conductivity) Units µs/cm ms/cm kΩ × cm MΩ × cm Display ranges 0.0000 to 9.9999 00.000 to 99.999 000.00 to 999.99 0000.0 to 9999.9 00000 to 99999 Temperature compensation TC-linear, natural water DIN EN 27888, natural water with expanded range, ASTM D-1125-95 for neutral (NaCl), acidic (HCl) and alkaline (NaOH) impurities...
Page 371: Analysis Input: Ci (Conductivity, Inductive)
23 Technical data 23.2.4 Analysis input: Ci (conductivity, inductive) Units µs/cm ms/cm Measuring/display ranges 0.0000 to 9.9999 00.000 to 99.999 000.00 to 999.99 0000.0 to 9999.9 00000 to 99999 Temperature compensation TC linear TC curve natural water natural water with expanded temperature range NaOH 0 to 12% NaOH 25 to 50% 0 to 25%...
Page 372: Temperature Compensations
23 Technical data 23.2.5 Temperature compensations Compensation type Compensation range TC linear -50 to +250 °C TC curve -50 to +250 °C -50 to +250 °C natural water according to DIN EN 27888 0 to 36 °C natural water with 0 to 100 °C expanded temperature range ASTM D-1125-95 (neutral, alkaline, and...
Page 373: Measuring Circuit Monitoring, Optional Boards
23 Technical data 23.2.6 Measuring circuit monitoring, optional boards Input/Sensor Underrange/ Short circuit/ Open circuit Special fea- overrange sensor break tures pH-value (glass elec- Configurable Configurable trode) Impedance mea- Impedance mea- surement surement pH-value (ISFET) Resistive conductivity Configurable Only with 4-wire circuit Inductive conductivity Universal input for con-...
Page 374: Analog Outputs Of Base Unit And Optional Boards
Configuration. Sensors and transmitters should be supplied from voltage supply outputs on the JUMO AQUIS touch P. An externally supplied voltage signal must not have a voltage over 28 V. All digital inputs IN 1 to 3 are suitable for connecting proximity switches. Recommended types are: Wachendorff P2C2B1208NO3A2 and Balluff BES M12EG-PSC80F-BP03.
Page 375: Binary Outputs, Optional Boards
23 Technical data 23.7 Binary outputs, optional boards Optional card Switching out- Ampacity at re- Contact life Special features sistive load Relay output, dual nor- 2 normally open 3 A at AC 250 V 150,000 mally open contacts contacts switching cycles Relay output, single 1 changeover changeover contact...
Page 376: Interfaces
Baud rates above 9600 are supported only by JUMO tecLine sensors and JUMO sensors with JUMO digiLine electronics. JUMO ecoLine sensors only support a baud rate of 9600. For sensors of the type JUMO ecoLine O-DO the sampling rate is configurable (1 bis 999 s).
Page 377: Ethernet Optional Board (10/100Base-T)
Modbus TCP/IP enables Modbus users to communicate via a LAN, provided this is connected to the LAN (e.g. via gateways). To configure Modbus communication you will require the interface description for the JUMO AQUIS touch P. Enlist the help of your network administrator or an IT specialist for the IP-configuration.
Page 378: Usb Interfaces
USB 2.0 data memory Type A Read/write device settings, Save Service data Update the firmware USB device interface Device setting via PC JUMO PC setup USB port setup program, program, Type Mini-B Extract, archive, evalu- JUMO PCC/PCA 3000 measurement data software The recording function stores measurement data in a ring buffer inside the device.
Page 379: Electrical Data
23 Technical data 23.10 Electrical data Voltage supply (switch-mode) AC 110 to 240 V +10/-15%; 48 to 63 Hz or AC/DC 24 V +30/-25 %; 48 to 63 Hz electrical safety According to EN 61010, part 1 overvoltage category III, pollution degree 2 Max.
Page 380: Case
23 Technical data 23.12 Case Site altitude maximum 2000 m above sea level Case type Plastic front frame with metal case barrel (for indoor use only) Materials Plastic front panel UL 94 V0 Case barrel from zinc-plated steel sheet Dimensions of the front 96 mm ×...
Page 381: Functions
23 Technical data 23.13 Functions 23.13.1 Controller channels Number Controller type Two-state controllers Three-state controllers Continuous controller Coarse/fine controller Modulating controllers Proportional controller with integrated actuator driver Controller structure P, PI, PD, PID Controller outputs For each controller channel, 2 outputs configurable as: pulse length output, pulse frequency output, (maximal 240 pulses per minute), continuous output Disturbance feedforward con-...
Page 382: Recording Function
History function Archiving/evaluation Yes, (with JUMO PCA 3000 evalu- ation software ) A freely configurable set of input variables can be pooled in one group. Each group has its own display screen. The group affiliation is considered for data storage to enable eval- uation via PC.
Page 383: Approvals/Approval Marks
23 Technical data 23.14 Approvals/approval marks Approval mark Testing agen- Certificates/ Inspection basis Valid for inspection numbers DNV GL DNV GL TAA000014K Class Guideline Type 202580/... DNVGL-CG-0339 only without PROFINET IO c UL us Underwriters E201387 UL 61010-1 (3. Edition), Type 202580/...
Page 384 23 Technical data...
Page 385: Annex
24 Annex 24.1 Troubleshooting and remedies for digital sensors 24.1.1 Possible faults on sensors with JUMO digiLine electronics Fault symptom Possible cause Remedy A sensor is not detected af- The serial interface of the device Check the following serial inter-...
Page 386 24 Annex Fault symptom Possible cause Remedy Sensors are not linked The JUMO AQUIS touch P cannot Follow the instructions in the oper- unambiguously assign the sen- ating manual for startup of digital sors to specific inputs for digital sensors.
Page 387 Poor contact in the bus cabling Check for reliable contact at all sors malfunction sporadical- plug connectors and terminals in the JUMO AQUIS touch P. In- spect the cabling for damage. (bus status appears as "Yel- The occurrence and clearing of low"...
Page 388: Possible Faults On Digital Jumo Ecoline And Tecline Sensors
24 Annex 24.1.2 Possible faults on digital JUMO ecoLine and tecLine sensors Fault symptom Possible cause Remedy A sensor is not detected af- The serial interface of the device Check the following serial inter- ter being connected and is concerned is configured incorrect-...
Page 389 JUMO DSM linking (cf. Chapter "Sub- software. Then, the sensor must menu for linking", page 97). be put into operation at the JUMO AQUIS touch P (initial startup). Base addresses • JUMO ecoLine O-DO (Type 202613): 10 •...
Page 390 24 Annex Fault symptom Possible cause Remedy All sensors connected to the The bus voltage supply has failed. Diagnose the failure of the voltage bus simultaneously mal- supply with a multimeter and re- function continuously. place the faulty voltage source or correct the short-circuit in the volt- ("Bus fault"...
Page 391: Planning The Cabling For Digital Sensors
JUMO digiLine electronics from a DC 5 V voltage supply output on the JUMO AQUIS touch P. In this case, stub lines can also be supplied from a JUMO digiLine hub or through use of JUMO Y-splitters.
Page 392 (cf. Chapter 24.2.4 "Voltage drop calculation", page 396). Stub line from a JUMO digiLine hub or Y-distributor up to a sensor with JUMO digiLine electronics...
Page 393 The use of numerous terminating resistors in a bus, however, can severely disrupt the signal. Sensor type Maximum length per branch Max. number of con- Comment nectable sensors JUMO digiLine pH/ 50 m Bus termination is not permissi- ORP/T JUMO ecoLine O-DO 50 m...
Page 394: Voltage Supply To The Bus With Dc 5 V From A Jumo Digiline Hub
JUMO digiLine hub. In this case, the JUMO digiLine hub must be supplied with DC 24 V. The slide switch on the JUMO digiLine hub must be set to the po- sition for DC 24 V as the input voltage. The electronics of the JUMO digiLine hub generate the bus supply voltage of DC 5 V internally and supply its outputs with this voltage.
Page 395 The use of numerous terminating resistors in a bus, however, can severely disrupt the signal. Sensor type Max. number of con- Comment Maximum length per branch nectable sensors JUMO digiLine pH/ 50 m ORP/T JUMO ecoLine O-DO 50 m Bus termination JUMO ecoLine NTU...
Page 396: Voltage Supply To The Bus With Dc 24 V
(cf. Chapter 24.2.4 "Voltage drop calculation", page 396). Stub line from a JUMO digiLine hub or Y-distributor up to a sensor with JUMO digiLine electronics...
Page 397 The use of numerous terminating resistors in a bus, however, can severely disrupt the signal. Sensor type Maximum length per branch Max. number of con- Comment nectable sensors digital JUMO tecLine 50 m Bus termination sensors is not permissi- (Types 20263x)
Page 398: Voltage Drop Calculation
24.2.4 Voltage drop calculation In the case of a JUMO digiLine bus with line topology (Y-adapter or JUMO dig- iLine hub with 5.3 V through a separate power supply unit) there is inevitably a voltage drop between the supply voltage feed-in and each sensor. The amount of the voltage drop depends on the sensor type, the number of sensors, the length of the bus, and the distribution of the sensors on the bus.
Page 399 The required minimum voltage of the sensors is shown in the following table. Sensor Minimum voltage JUMO digiLine pH/ORP/T 4.2 V JUMO ecoLine O-DO JUMO ecoLine NTU The voltage at sensor 1 (JUMO digiLine pH) is well above the minimum value...
Page 400 For the operation of JUMO ecoLine sensors, it is generally recommended to use JUMO digiLine hubs and to generate the DC 5.3 ‫ټ‬ V supply voltage within the JUMO digiLine hub. NOTE! The voltage drop calculation shown here does not apply for the use of JUMO tecLine sensors (types 20263x).
Page 401: China
24 Annex 24.3 China...
Page 402 24 Annex...
Page 404 JUMO GmbH & Co. KG JUMO Instrument Co. Ltd. JUMO Process Control, Inc. Street address: JUMO House 6733 Myers Road Moritz-Juchheim-Straße 1 Temple Bank, Riverway East Syracuse, NY 13057, USA 36039 Fulda, Germany Harlow - Essex CM20 2DY, UK Phone:...

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