Siemens SIPROCESS GA700 Operating Manual

Siemens SIPROCESS GA700 Operating Manual

Continuous gas analysis, operating with the local user interface
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Continuous gas analysis
SIPROCESS GA700
Operating with the Local User
Interface
Operating Manual
06/2017
A5E31930478-05
Introduction
General information
Description
Operation
Commissioning
Functions
Alarm, error, and system
messages
Appendix
1
2
3
4
5
6
7
A
Table of Contents
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Summary of Contents for Siemens SIPROCESS GA700

  • Page 1 Introduction General information Description Continuous gas analysis Operation SIPROCESS GA700 Operating with the Local User Commissioning Interface Functions Operating Manual Alarm, error, and system messages Appendix 06/2017 A5E31930478-05...
  • Page 2 Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems.
  • Page 3: Table Of Contents

    Table of contents Introduction ............................11 Purpose of this documentation ....................11 History ............................. 11 Notes on warranty ........................12 Target group ........................... 12 Conventions ..........................12 General information ..........................15 KC Safety note - Information for Korea only ................15 Safety instructions ........................
  • Page 4 4.4.1 Main menu ..........................72 4.4.2 Subordinate menus ........................ 73 Commissioning ............................. 77 Requirements ......................... 77 Commissioning the SIPROCESS GA700 ................78 Functions .............................. 83 [1] Quick Start ........................83 6.1.1 Quick Start Overview ......................83 6.1.2 Requirements ......................... 83 6.1.3...
  • Page 5 Table of contents 6.2.1 Setting the measured-value format ..................98 6.2.2 Setting the extended measured-value display ................ 99 6.2.3 Displaying additional process values ..................100 6.2.4 Customizing the display settings ..................101 6.2.5 Setting the symbol sets ......................101 6.2.6 Assigning USER FUNC key ....................
  • Page 6 Table of contents 6.8.3 [2.09.3] Digital inputs ......................143 6.8.3.1 Overview of digital inputs ..................... 143 6.8.3.2 Setting digital inputs ......................148 6.8.4 [2.09.4] DI links ........................150 6.8.4.1 Overview of DI links ......................150 6.8.4.2 Linking digital inputs ......................150 6.8.5 [2.09.5] Digital outputs ......................
  • Page 7 Table of contents 6.14.1.1 [2.20.02] Heaters OXYMAT 7 ....................190 6.14.1.2 [2.20.02] Heaters ULTRAMAT 7 ................... 190 6.14.1.3 [2.20.02] Heaters CALOMAT 7 ..................... 190 6.14.2 [2.20.03] Factory calibrations ....................190 6.14.2.1 Overview ..........................190 6.14.2.2 Note on setting ........................191 6.14.2.3 [2.20.03] Factory calibrations OXYMAT 7 ................
  • Page 8 Table of contents 6.20.2 Editing QAL3 drift values ..................... 226 6.20.3 Displaying control reserve ....................226 6.21 [3.08] Maintenance & Diagnostics > Maintenance intervals ..........227 6.21.1 Displaying maintenance intervals ..................227 6.21.2 Assigning maintenance interval parameters ................ 227 6.22 [3.09] Maintenance &...
  • Page 9 A.2.1 Conformity with European directives ..................280 Certificate ..........................281 References ..........................281 MODBUS TCP ........................284 A.5.1 MODBUS interface for SIPROCESS GA700 ................ 284 A.5.2 Planning/configuring ......................285 A.5.3 Transfer of device data ......................288 A.5.3.1 Device data ........................... 288 A.5.3.2...
  • Page 10 Table of contents Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 11: Introduction

    Introduction Purpose of this documentation This documentation contains all the information you need to operate the device using the local user interface (LUI). The LUI consists of a display and keyboard with four keypads with which all analyzer functions can be set using menus. The analyzer can also be operated with SIMATIC PDM.
  • Page 12: Notes On Warranty

    All obligations on the part of Siemens AG are contained in the respective sales contract, which also contains the complete and solely applicable warranty conditions. Any statements contained in this documentation do not create new warranties or restrict the existing warranty.
  • Page 13 Introduction 1.5 Conventions Representation Scope type [1] to [6] Numbers of the main menu in the LUI, part of the The square brackets identi- menu name fy the chapter numbers that precede the menu names. [1..] to [6] Numbering of the menus downstream from the main menu, part of the menu name →...
  • Page 14 Introduction 1.5 Conventions Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 15: General Information

    General information KC Safety note - Information for Korea only Class A Equipment (Industrial Broadcasting & Communication Equipment) This equipment is Industrial (Class A) electromagnetic wave suitability equipment and seller or user should take notice of it, and this equipment is to be used in the places except for home.
  • Page 16: Information On Use

    2.3.2 Security messages Siemens provides automation and drive products with industrial security functions that support the secure operation of plants or machines. They are an important component in a holistic industrial security concept. With this in mind, our products undergo continuous development.
  • Page 17: Communications

    2.3.5 Automatic reset All SIPROCESS GA700 devices feature internal monitoring. When this monitoring is activated, the standard digital outputs switch after about 4 seconds for a period of approx. 60 seconds to "inactive", i.e. to a recognized safe operating mode. These times are valid for devices manufactured as of 09/2017.
  • Page 18 General information 2.3 Information on use If you are using SIPROCESS GA700 devices in critical processes, observe the following information: ● Monitor the limits externally via the control system. ● Read out the device status only via the digital outputs of the analyzer module.
  • Page 19: Description

    Description Overview Distinction The devices of the SIPROCESS GA700 product range are of modular design, and consist of the basic device and at least one analyzer module. Certain analyzer and option modules can be retrofitted. Table 3- 1 Device/enclosure variants...
  • Page 20: Oxymat 7

    Description 3.2 OXYMAT 7 See also CALOMAT 7 measurement task (Page 28) OXYMAT 7 3.2.1 Design Note Condensation in the analyzer module Use a sample gas cooler that reduces the dew point of the sample gas to the extent that the gas in the analyzer does not condense.
  • Page 21 Description 3.2 OXYMAT 7 ① ⑤ Reference gas inlet Power supply connection ② ⑥ n.c. OM connection ③ ⑦ Sample gas outlet CAN connection ④ Sample gas inlet Figure 3-1 Structure of high-pressure version, sample gas path with pipes See also Functional principles (Page 22) Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 22: Functional Principles

    Description 3.2 OXYMAT 7 3.2.2 Functional principles Overview ① ⑦ Reference gas inlet Paramagnetic measurement effect ② ⑧ Restrictors Electromagnet with alternating current strength ③ ⑨ Microflow sensor Sample gas and reference gas outlet ④ ⑩ Reference gas channels Vibration compensation system (optional) ⑤...
  • Page 23 Description 3.2 OXYMAT 7 Measuring principle Oxygen is highly paramagnetic compared to other gases. This physical property is used to determine oxygen concentration in gases. Oxygen molecules in an inhomogeneous magnetic field always move toward the higher field strength. A higher concentration or partial pressure of oxygen is generated at this point. If two gases with differing oxygen content are combined in a magnetic field, a difference in partial pressure results between them.
  • Page 24: Ultramat 7

    Description 3.3 ULTRAMAT 7 ULTRAMAT 7 3.3.1 Design Overview ① ⑤ Sample gas inlet Heat sink ② ⑥ Sample gas outlet CAN connection ③ ⑦ Reference gas outlet Power supply ④ ⑧ Reference gas inlet Analog interface Figure 3-3 Example: Design of ULTRAMAT 7, measurement and reference gas path with pipes Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 25: How The Ultramat 7 Works

    Description 3.3 ULTRAMAT 7 3.3.2 How the ULTRAMAT 7 works Overview ① ⑦ Source, adjustable Reference chamber ② ⑧ Optical filter Sample gas outlet ③ ⑨ Beam splitter Detector chambers (measurement/reference compart- ment) ④ ⑩ Chopper Microflow sensor ⑤ ⑪ Sample gas inlet Decoupler ⑥...
  • Page 26 Description 3.3 ULTRAMAT 7 Measuring principle The ULTRAMAT 7 can simultaneously measure up to 4 infrared-active measuring components. The measurements are based on the molecular-specific absorption of infrared radiation bands (absorption bands). ULTRAMAT 7 analyzer modules use a spectral range which includes wavelengths of 2 to 9 µm.
  • Page 27: Calomat 7

    Description 3.4 CALOMAT 7 CALOMAT 7 3.4.1 Design Overview ① ⑤ Sample gas inlet Power supply connection ② ⑥ Sample gas outlet Analog output/digital output ③ ⑦ n.c. CAN connection ④ n.c. Figure 3-5 Example: Design of CALOMAT 7, sample gas path with pipes See also How the CALOMAT 7 works (Page 28) Operating with the Local User Interface...
  • Page 28: How The Calomat 7 Works

    Description 3.4 CALOMAT 7 3.4.2 How the CALOMAT 7 works Overview ① Sample gas inlet ② Measuring membrane with thin-film resistors ③ Sample gas outlet Figure 3-6 Principle of operation of CALOMAT 7 How it works/measuring principle The measuring method is based on the different levels of thermal conductivity of gases. CALOMAT 7 analyzer modules work with a micromechanically produced Si chip, the measuring membrane of which is equipped with thin-film resistors.
  • Page 29 Description 3.4 CALOMAT 7 Gas mixtures (measurement of...) Methane in hydrogen Hydrogen in air Air in hydrogen Hydrogen in nitrogen Nitrogen in hydrogen Hydrogen in carbon dioxide Carbon dioxide in hydrogen Hydrogen in argon Argon in hydrogen Helium in nitrogen Nitrogen in helium Helium in argon Argon in helium...
  • Page 30: Option Modules

    Description 3.5 Option modules Option modules Option module 1.1 Option module 1.1 (OM1.1) provides eight additional digital inputs and twelve additional digital outputs. Because the module is a "passive" module, the processing unit is in charge of controlling the OM. Option module 2.1 The option module 2.1 (OM2.1) is a "passive"...
  • Page 31: Combined Operation

    • If required, you can adapt the modules with combination sets ("Combination set with hoses"/"Combination set with pipes"). Additional information on combination sets is available from your Siemens partner: → Technical support (Page 279). Operating with the Local User Interface...
  • Page 32 • Only install analyzer modules manufactured for operation in a wall-mounted device into such a device. Additional information is also available from your Siemens partner → Technical support (Page 279). Note Influence of building vibrations on the measured signal If you are using OXYMAT 7 and/or ULTRAMAT 7 analyzer modules, building vibrations, in particular in the frequency range from 6 to 15 Hz, can influence the measured signal.
  • Page 33: Analyzer Module/Slot Combinations: Slots

    Description 3.6 Combined operation 3.6.1.2 Analyzer module/slot combinations: Slots Slots for analyzer modules The figure below shows the slots for the analyzer modules: Rack-mounted device (rear) Wall-mounted device (bottom) ① Slot 1 (AM1) ② Slot 2 (AM2) Figure 3-7 Slots for analyzer modules 3.6.2 Operating modes 3.6.2.1...
  • Page 34: Operating Modes: Serial/Parallel Operation

    Description 3.6 Combined operation Note Mode-dependent parameter assignment of the gas path in serial/parallel operation Analyzer modules can be operated in series or in parallel. • If you are only using one analyzer module or want to operate two analyzer modules in series, set the value "Shared"...
  • Page 35: Operating Modes: Selection Of Operating Mode

    Description 3.6 Combined operation 3.6.2.3 Operating modes: Selection of operating mode Selection of operating mode The operating modes selected for the specific application result in the following consequences: ● The mounting positions of sample gas restrictors or clamping screws at the sample gas connections must be checked and changed, if necessary.
  • Page 36 Description 3.6 Combined operation Note Sample gas disposal: keep exhaust line free from fast pressure fluctuations Make sure that the exhaust line is free from fast pressure fluctuations: • Install a special exhaust line. • Install a damping vessel (> 1 l) with a downstream restrictor between the device and the exhaust line (pneumatic low pass).
  • Page 37: Sample Gas Restrictors/Clamping Screws

    Description 3.6 Combined operation 3.6.3.2 Sample gas restrictors/clamping screws Overview ① For version with pipes: Sample gas bushing with 6 mm connection fittings ② Sample gas restrictors ③ For version with hoses: Sample gas bushing with 6 mm connection fittings Figure 3-8 Sample gas connections with sample gas restrictors For rack-mounted and wall-mounted devices, the sample gas connections of the analyzer...
  • Page 38 Description 3.6 Combined operation Depending on the analyzer module, sample gas restrictors or clamping screws can be mounted at the connections: ● The sample gas restrictor is used to dampen pressure fluctuations in the sample gas path of an analyzer module. –...
  • Page 39 Description 3.6 Combined operation ① Sample gas restrictor ② Clamping screw Figure 3-9 Distinction between sample gas restrictor and clamping screw, sectional drawing and view from above Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 40: Conditions For Use/Installation

    Description 3.6 Combined operation 3.6.3.3 Conditions for use/installation Overview of mounting position ① Gas connection before installation of sample gas restrictor or clamping screw ② Gas connection after installation of sample gas restrictor or clamping screw ③ Rear clamp ring ④...
  • Page 41 Description 3.6 Combined operation OXYMAT 7 Note Order additionally required clamping screws separately Additionally required clamping screws are not included in the scope of delivery. They must be ordered separately. Table 3- 5 Mounting conditions for the sample gas restrictor: OXYMAT 7 Sample gas restrictor/clamping screw Operating mode Operation with one...
  • Page 42 Description 3.6 Combined operation Combination operation with ULTRAMAT 7 Table 3- 6 Mounting conditions for the sample gas restrictor: ULTRAMAT 7 Sample gas restrictor/clamping screw Operating mode Combined operation Combined operation OXYMAT 7/ULTRAMAT 7 ULTRAMAT 7/ULTRAMAT 7 Pressure operation No measures 1.
  • Page 43 Description 3.6 Combined operation Retrofitting example: "Pressure operation, serial" for OXYMAT 7/ULTRAMAT 7 When you are replacing the ULTRAMAT 7 with an OXYMAT 7 analyzer module, you must replace the sample gas restrictor in the sample gas inlet with a clamping screw. MGE, VGE Sample gas inlet (MGE), Reference gas inlet (VGE) ①...
  • Page 44: Plug & Measure Permitted Activities

    Description 3.6 Combined operation Retrofitting example "Suction operation, serial" operating mode for OXYMAT 7/ULTRAMAT 7 When you are using the ULTRAMAT 7 and the OXYMAT 7 analyzer module in serial suction operation, you must convert the sample gas restrictor of the OXYMAT 7 analyzer module: Sample gas inlet →...
  • Page 45: Setting Instructions

    Description 3.6 Combined operation Requirement for successful module retrofitting or successful module replacement The firmware of the module to be replaced must be compatible with the firmware of the processing module (PM). Installation of a new module in an existing analyzer: ●...
  • Page 46: Case Differentiations

    Description 3.6 Combined operation Note Authorization level To execute the actions described below, you must be logged on with at least the "Expert" authorization level. You may have to log on again with the requested PIN. Note Alarm window When you change the hardware of the device by replacing or adding modules or components, the alarm window "Device configuration changed"...
  • Page 47 Description 3.6 Combined operation Table 3- 9 Plug & Measure - Installation/replacement of an AM Case Description Data synchronization/Action The AM is to be replaced by a mod- User action. Confirm or changed placed ule of the same type. The replace- reject .
  • Page 48 Description 3.6 Combined operation Table 3- 10 Plug & Measure - Installation/replacement of a PM Case Description Data synchronization/Action The PM electronics is replaced. "-" is Automatic data synchronization , no changed displayed instead of the serial number. action required by user. At least one AM remains in the device.
  • Page 49 Description 3.6 Combined operation Table 3- 12 Plug & Measure - AM slot change Case Description Data synchronization/Action AM1 → Internal swapping of modules be- None changed tween slots is not permitted! AM2 → Install the modules once again in their previous slot and restart the device.
  • Page 50 Description 3.6 Combined operation Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 51: Operation

    Operation Local User Interface (LUI) Operating elements The LUI (Local User Interface) of the SIPROCESS GA700 devices has the following operating elements: ① ④ Local user interface Numeric keypad ② ⑤ Display Cursor and command keys ③ ⑥ Buttons for special functions...
  • Page 52 Operation 4.1 Local User Interface (LUI) Views/displays Views structure the access to the functions of the device or its components. Only the operator control options corresponding to the configuration of your device are output on the display. Main view This view contains the measured value display of all components, the expanded measured value display, the process value display and the list of the current messages.
  • Page 53 Operation 4.1 Local User Interface (LUI) Navigation-relevant keys Table 4- 1 Functions of navigation-relevant keys Keys Function Navigate to higher-level views/menus. Use the key to return to the measured-value display in selection mode or to the main view. Navigate within a view/menu, and direct selection with the numeric keys.
  • Page 54 Operation 4.1 Local User Interface (LUI) 3. Activate the selection mode: Press . 4. Display detailed information: – Select one of the displayed messages with the <▼>/<▲> keys. – Confirm your selection by pressing the key. Detailed information about the message is displayed. If required, acknowledge the message and eliminate the causes named in the message text.
  • Page 55: Keyboard

    Operation 4.2 Keyboard Logbook The device has a logbook for logging abnormal events, for example, error messages that require acknowledgment. Module-specific messages are always stored permanently on the module itself. With the LUI, the device provides a uniform user interface that logically combines all the individual logbooks.
  • Page 56: Key Functions

    Operation 4.2 Keyboard 4.2.2 Key functions Keys of the numeric pad Table 4- 3 Functions of the numeric keys Keys Function <0> ... <9> You use the numeric keys to enter numerical values, e.g., in editing windows. In addition, subordinate menu entries can be selected directly by entering the menu number.
  • Page 57 Operation 4.2 Keyboard Keys with special functions Table 4- 4 Functions of the keys with special functions Keys Function If you press the key a single time, the display always changes to the measured-value display. You log off when you press it again.
  • Page 58: Undo Function

    Operation 4.2 Keyboard HELP and UNDO keys Table 4- 6 Functions of the HELP and UNDO keys Keys Function Press this key to open or close the help window which displays help for selected parameters. Press this key to undo up to ten user actions one after the other. User actions are either individual parameter changes or input se- quences when running a wizard.
  • Page 59: Undo Actions With The Key

    Operation 4.2 Keyboard Individual operator inputs include, for example, changing an individual parameter value in an editing window. Input sequences are actions that consist of related inputs. Individual steps of these input sequences may be executed by the device hidden from the user. Examples: ●...
  • Page 60: Display

    Operation 4.3 Display Display 4.3.1 Structure The figure below shows the structure of the display using a measured-value display of all components in read mode as an example. ① ③ Header Status bar ② Display area Figure 4-4 Display structure, example: Measured-value display in read mode with three components See also Setting the symbol sets (Page 101) [2.01] Settings >Display/USER FUNC key (Page 98)
  • Page 61: Header

    Operation 4.3 Display 4.3.2 Header Header (main view) ① Display of the gas path or the active process tag ② Number of displays included in the main view ③ Symbol: Switch displays with the keys <▲> and <▼> Figure 4-5 Example: Header of measured-value display (main view) The header of the measured-value display of all components includes the following device- specific information:...
  • Page 62 Operation 4.3 Display Header (parameter view) Figure 4-6 Example of headers in parameter view The header in the parameter view always includes the menu name and the corresponding menu or order number. You can also read out the scope of the menu: ①...
  • Page 63: Display Area

    Operation 4.3 Display 4.3.3 Display area 4.3.3.1 Main view (read mode) Measured-value display of all components in read mode ① Measured-value display for a measured component ② Measured-value display for three measured components ③ Display of active measuring range ④ Bar graph for measured-value display with display of measuring range limits Figure 4-7 Example: Measured value displays with one/three measured components...
  • Page 64 Operation 4.3 Display ① ⑤ Start of scale High warning limit ② ⑥ End of scale Current measured value ③ ⑦ Measuring range Low warning limit ④ ⑧ High alarm limit Low alarm limit Figure 4-8 Example: Bar graph for measured-value display with display of measuring range limits If not more than two components are displayed, the device displays measuring range limits including high and low warning and alarm limits as bar graphs.
  • Page 65 Operation 4.3 Display Extended measured-value display Figure 4-10 Example: Extended measured-value display with two components If you are measuring more than two components with your device, information is hidden in the measured-value display of all components for reasons of space. You can display the information for one or two components again with the extended measured-value display.
  • Page 66 Operation 4.3 Display Display of current messages ① ④ Message symbol Message number ② ⑤ Identification that message requires acknowledgment Message group ③ Module sending message/component sending message Date/time information: "Incoming" time of message Figure 4-12 Example: Current messages This display of the TLV includes all pending messages and all messages that require acknowledgment but have not been acknowledged yet.
  • Page 67: Main View (Selection Mode)

    Operation 4.3 Display 4.3.3.2 Main view (selection mode) Figure 4-13 Example: Main view with two components in selection mode If you press in one of the two measured-value displays, the display switches from read mode to selection mode. The first displayed component is highlighted with a black background.
  • Page 68: Parameter View

    Operation 4.3 Display Figure 4-15 Example: Menu [2.0] Settings Menu entries for functions that are not available in your device are not displayed. However, the numbering within the menu is not adapted, for example, with menus [2.4] Limits to [2.7] Noise suppression:. This simplifies the operation of the device: All menus can be accessed directly by entering the same menu number.
  • Page 69 Operation 4.3 Display In parameter view you can display device parameters, set device parameters, and start wizards. When you open the parameter view, the first editable parameter is always selected. Editable parameters are highlighted with a black background when you select them. The values of output parameters, for example, "Autoranging"...
  • Page 70 Operation 4.3 Display ① ② Editing window for list selection ( ● Editing window for 1 of N selection: You can only select and enable one list entry. ● Editing window for M of N selection: – Several check boxes can be activated at the same time. –...
  • Page 71: Status Bar

    Operation 4.3 Display 4.3.4 Status bar Design Status symbols can be displayed either with the PCS 7 or NAMUR NE107 set of symbols. The following descriptions refer to the PCS 7 symbol set as an example. ① Symbol area PCS7 symbols ②...
  • Page 72: Menu Structure

    Operation 4.4 Menu structure Message texts In addition to the status symbols, the text of the most important message of all message groups is output as well. The message structure is based on the following pattern: ① Component name ② Error number ③...
  • Page 73: Subordinate Menus

    Operation 4.4 Menu structure 4.4.2 Subordinate menus [1] Quick Start menu Figure 4-23 Overview of menu [1] Quick start Start up the device in as described in the section Commissioning (Page 77). Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 74 Operation 4.4 Menu structure [2] Settings menu Figure 4-24 Overview of menu [2] Settings You use this menu and its submenus to adjust the selected component to the specific conditions of use. The displayed contents of the [2.20] Service menu are read-only (setting only by service personnel).
  • Page 75 Operation 4.4 Menu structure [3] Maintenance and diagnostics menu Figure 4-25 Overview of menu [3] Maintenance & diagnostics In this menu you can call the submenus relevant to maintenance and diagnostics. The contents of the [3.20] Service trace menu are visible, but can only be set with the appropriate permission level (service personnel).
  • Page 76 Operation 4.4 Menu structure [5] Security menu Figure 4-27 Overview of the [5] Security menu In this menu you can make settings relevant for security. PINs of higher permission levels always give you the right to make changes at lower permission levels. [6] Language menu Figure 4-28 Overview of menu [6] Language...
  • Page 77: Commissioning

    Commissioning Requirements The following requirements must be met before you commission the device: ● The device includes at least one analyzer module. ● All required lines and equipment that convey gas are connected to the device. Information on how to connect the gas lines correctly is available in the device-specific documentation: →...
  • Page 78: Commissioning The Siprocess Ga700

    Commissioning 5.2 Commissioning the SIPROCESS GA700 Commissioning the SIPROCESS GA700 Procedure Startup ① Product designation ② Version of the device firmware ③ Progress bar Figure 5-1 Splash screen Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 79 Commissioning 5.2 Commissioning the SIPROCESS GA700 1. Supply the device with power. Information on the power supply of the device is available in the device-specific documentation → Table A-3 References 3 - Operating Instructions (Page 282). The boot process starts. The splash screen is initially visible on the device display.
  • Page 80 Commissioning 5.2 Commissioning the SIPROCESS GA700 If you do not use the quick start procedure, commission the device with the steps described below: 1. Call the main menu: – Switch the measured-value display to selection mode. To do so, press .
  • Page 81 Commissioning 5.2 Commissioning the SIPROCESS GA700 8. Calibrate the device: → [2.08] Settings > Calibrations (Page 114). – Familiarize yourself with the basics of calibration. Device-internal characteristics are changed during calibration: → Basics (Page 114) – Prepare for the calibration. Set the setpoints, calibration tolerances, and the sample gas purging time: →...
  • Page 82 Commissioning 5.2 Commissioning the SIPROCESS GA700 Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 83: Functions

    Functions [1] Quick Start 6.1.1 Quick Start Overview This menu includes the basic settings that can be used as part of a quick commissioning. The commands in this menu correspond to the steps described in section → Commissioning (Page 77). 6.1.2 Requirements The following requirements must be met before you commission the device:...
  • Page 84 Functions 6.1 [1] Quick Start 3. Set the display language. The default setting is English. "Language" parameter field. Select your preferred display language. 4. Setting parameters for date and time: Note Effects of changes Changing the time has a direct effect on the sequence of logbook entries and all other time-based device services.
  • Page 85: [1.2] Automatic Log-Off

    Functions 6.1 [1] Quick Start 6.1.4 [1.2] Automatic log-off Procedure Note Function of automatic logoff When this function is activated and the logoff time expires, the device logs you off automatically. All changes that are not saved permanently will be discarded. The TLV "Measured value display of all components"...
  • Page 86: Analog Outputs

    Functions 6.1 [1] Quick Start 6.1.5 [1.3] Analog outputs Overview Note Availability of the menu This menu is only available if your device has at least one of the option modules (2.1 and/ or 2.2) installed. If the option modules are not installed in the device, the "Quick Start" menu has a corresponding menu entry.
  • Page 87 Functions 6.1 [1] Quick Start Setting analog output ranges 1. "1 Quick Start" > "04 Analog outputs" main menu The menu includes one navigation line for each of the five analog output ranges that can be set: Structure of the navigation line for each analog output range Component name Analog output range 2.
  • Page 88: [1.4] Measuring Ranges

    Functions 6.1 [1] Quick Start 6.1.6 [1.4] Measuring ranges 6.1.6.1 Overview of measuring ranges Measuring ranges Note Putting back into operation with disabled measuring ranges The measuring ranges are activated in the factory. If you disable the measuring ranges (setting: "Off"), all the setting options in other menus related to the measuring range are also hidden.
  • Page 89: Setting The Measuring Ranges

    Functions 6.1 [1] Quick Start Measuring range type 1 (mr i < mr (i+1)) The full-scale value of measuring range must be less than the full-scale value of the following measuring range . The following switchover points are used: (i+1) High switchover point (= full-scale value Low switchover point (= full-scale value minus 10 % of the span)
  • Page 90 Functions 6.1 [1] Quick Start 1. "1 Quick Start" > "4. Measuring ranges" > "n component" main menu The menu includes a navigation line for setting of autoranging. One navigation line is reserved for each of the four measuring ranges that can be set: Structure of the navigation line for each measuring range Measuring range Measuring range start - measuring range end...
  • Page 91: Setting Autoranging

    Functions 6.1 [1] Quick Start 4. Enable/disable measuring range: "Use measuring range" parameter field. Note Using measuring ranges in other device functions/menus Other device functions or menus can only access measuring ranges activated in this menu. Inactive measuring ranges are not displayed for selection in other device functions/menus.
  • Page 92: Calibration

    Functions 6.1 [1] Quick Start 1. "1 Quick Start" > "4. Measuring ranges" > "n component" main menu The menu includes four navigation lines for setting the measuring ranges and one navigation line for setting autoranging. 2. Call autoranging: Navigation line "Autoranging". The parameter display of autoranging has a parameter field and a display box.
  • Page 93 – "Factory calibrations" (normalization and phase calibration). The section below only covers the area of "Customer calibrations". Information on factory calibrations is available under → [2.20.03] Factory calibrations. Contact you Siemens sales rep for more information. ● Single/total: Calibration of only one or all measuring ranges ●...
  • Page 94 Functions 6.1 [1] Quick Start Types of calibration You can set the following types of calibration: Table 6- 1 Types of calibration ("Customer calibrations") Calibration Description 1-point zero gas calibration This calibration eliminates drifts in the zero point. The setpoint corresponds to the actual value in the zero point.
  • Page 95 Functions 6.1 [1] Quick Start Sequence When you start the calibration, a wizard is started that guides you through calibration. Depending on the type of calibration selected, the wizard includes the following steps: Figure 6-1 Steps during calibration See also [2.20.03] Factory calibrations OXYMAT 7 (Page 191) [2.08] Settings >...
  • Page 96: Execute Calibration/Validation

    Functions 6.1 [1] Quick Start 1. "1 Quick Start" > "4. Measuring ranges" > "n component" main menu The menu includes four navigation lines for setting the measuring ranges and one navigation line for setting autoranging. 2. Call autoranging: Navigation line "Autoranging". The parameter display of autoranging has a parameter field and a display box.
  • Page 97 Functions 6.1 [1] Quick Start 5. Assign measuring range(s): "Measuring range" parameter field. Note Setting the measuring ranges Check the settings of the measuring ranges before you assign a range to a calibration. Make sure that the measuring ranges are set appropriately for the respective application. Adjust the settings of the measuring ranges again, if necessary: [1.4] Measuring ranges (Page 88) menu.
  • Page 98: [1.6] Save Parameter Set

    Parameter sets overview You can use this menu to save your latest settings in a parameter set. You can use it to restore any unintentional changes to the parameter assignment. SIPROCESS GA700 devices use two types of parameter sets: ● Factory data: This parameter set is the factory default and is used to restore the original parameter assignment.
  • Page 99: Setting The Extended Measured-Value Display

    Functions 6.2 [2.01] Settings >Display/USER FUNC key 3. Allow/suppress display of negative gas measured values in the main view: "Negative values" parameter field. – Authorize access with Standard PIN. – Select "Allow" or "Suppress". If you select the "Suppress" setting, a value which is actually negative is displayed in the main view as "0".
  • Page 100: Displaying Additional Process Values

    Functions 6.2 [2.01] Settings >Display/USER FUNC key 6.2.3 Displaying additional process values Procedure Note Possible settings With this parameter display you influence the additional process value display in the main view. The offered settings depend on the following conditions: • Hardware installed in device •...
  • Page 101: Customizing The Display Settings

    Functions 6.2 [2.01] Settings >Display/USER FUNC key 6.2.4 Customizing the display settings Procedure 1. Main menu > "2 Settings" > "01. Display/USER FUNC key" > "4. Display settings" 2. Call the parameter display: Press . 3. Make the display settings: –...
  • Page 102: Assigning User Func Key

    Functions 6.3 [2.02] Settings > Time/Date 6.2.6 Assigning USER FUNC key Procedure You can assign two functions to the key: 1. Main menu > "2 Settings" > "01 Display/USER FUNC key" > "6 USER FUNC key" 2. Call the parameter display: Press . 3.
  • Page 103: [2.03] Settings > Measuring Ranges

    Functions 6.4 [2.03] Settings > Measuring ranges 4. Enter the current time: "Time" parameter field. 5. Enable/disable automatic switching to daylight saving time: "Daylight saving time" parameter field. Select one of the alternatives: Setting Description Automatic switching is disabled. Autom. EU Automatic switching to CEST ("Central European Summer Time") on the last Sunday in March.
  • Page 104 Functions 6.4 [2.03] Settings > Measuring ranges The device lets you set measuring ranges permanently or switch them over automatically. Contrary to the permanent setting, the measuring range follows the current measured value with automatic switchover. You can define up to four measuring ranges for each component. The start-of-scale values and the end-of-scale values are assigned to the low or high value of the analog output (scaling of the analog output).
  • Page 105: Setting The Measuring Ranges

    Functions 6.4 [2.03] Settings > Measuring ranges High switchover point (= start value of Low switchover point (= start value plus measuring range) 10% of the span) Full-scale value Start-of-scale value When the high switchover point is violated, there will be a switch to the next-higher measuring range.
  • Page 106: Setting Autoranging

    Functions 6.4 [2.03] Settings > Measuring ranges 3. Set up the measuring range: Refer to the specifications under Overview of measuring ranges (Page 103). – Enter start of measuring range: "Start-of-scale value" parameter box Authorize access with Standard PIN, if necessary. –...
  • Page 107: [2.04] Settings > Limits

    Functions 6.5 [2.04] Settings > Limits Note Component-specific setting Measuring ranges are component-specific. Repeat the procedure described below for all components, if necessary. 1. Main menu > "2. Settings" > "03 Measuring ranges" The menu includes four navigation lines for setting the measuring ranges and one navigation line for setting autoranging.
  • Page 108: Setting Limits

    Functions 6.5 [2.04] Settings > Limits Monitoring options The following monitoring options can be used: Table 6- 2 Monitoring options using limits Monitoring Setting None The low and high limits are inactive: Setting "Off" for both. Low limit violated Only the low limit is activated. High limit exceeded Only the high limit is activated.
  • Page 109 Functions 6.5 [2.04] Settings > Limits 1. Component > Main menu > "2. Settings" > "04 Limits" The menu has two navigation lines for setting alarm limits and/or warning limits. Each limit range has a minimum and maximum limit that can be activated separately: Structure of the navigation line for each limit Limit number.
  • Page 110 Functions 6.5 [2.04] Settings > Limits 5. Set hysteresis: "Hysteresis" parameter field. The input refers to the value of the current measuring range: – If the measured value is exactly above or below the limit, a message is activated: Message Cause/description (activation) Measured value ≥...
  • Page 111: [2.07] Settings > Noise Suppression

    Functions 6.6 [2.07] Settings > Noise suppression 8. Specify message behavior: – Set the message level: "Message level" parameter field – Authorize access with Expert PIN, if necessary. – Enable/disable acknowledgment requirement: "Requires acknowledgment" parameter field. 9. Change the delay times, if necessary: Service PIN required.
  • Page 112: Setting Noise Suppression

    Functions 6.6 [2.07] Settings > Noise suppression Display delay ● If the distance from the previously dampened measured value to the currently undampened measured value is less than the effective interval, the time constant "T90 within" becomes effective. ● If the distance of the currently undampened measured value to the previously dampened measured value exceeds the effective interval, damping takes place with the second time constant "T90 outside".
  • Page 113 Functions 6.6 [2.07] Settings > Noise suppression 4. Specify time constants: Note Effectiveness of time constants The first time constant "T90 within" acts within the effective interval and dampens small changes in measured value. If the change of the measured value exceeds the effective interval, the time constant becomes ineffective.
  • Page 114: [2.08] Settings > Calibrations

    – "Factory calibrations" (normalization and phase calibration). The following section only deals with "customer calibrations". Factory calibrations:" → [2.20] Settings > Service (Page 190) If necessary contact your Siemens sales contact. ● Single/total: Calibration of only one or all measuring ranges ●...
  • Page 115 Functions 6.7 [2.08] Settings > Calibrations Types of calibration You can set the following types of calibration: Table 6- 3 Types of calibration Calibration Description 1-point zero gas calibration This calibration eliminates drifts in the zero point. The setpoint corresponds to the actual value in the zero point.
  • Page 116: Sequence Of A Calibration/Validation

    Functions 6.7 [2.08] Settings > Calibrations 6.7.1.2 Sequence of a calibration/validation Overview When you start the calibration, a wizard is started that guides you through calibration. Depending on the type of calibration selected, the wizard includes the following steps: Figure 6-2 Steps during calibration Step 1: Information about the current calibration ("Info") Once the wizard has started, an information window is displayed.
  • Page 117 Functions 6.7 [2.08] Settings > Calibrations In addition to the setpoint and actual value (measured value) the currently set master measuring range is displayed. As soon as the actual value shows a stable behavior, apply this value. The wizard continues the process. Steps 3, 5: Calculation During steps 3 or 5, the current measured value is filtered first and then the calibration factors are calculated.
  • Page 118: Calibration Requirements

    Functions 6.7 [2.08] Settings > Calibrations 6.7.2 Calibration requirements 6.7.2.1 Overview The permissibility of a calibration start depends on which message(s) are currently active in the device. ● An overview of the messages whose presence permits the start of a calibration is available in section →...
  • Page 119: Non-Permissibility Of Calibrations

    Functions 6.7 [2.08] Settings > Calibrations Table 6- 5 Permissibility of calibrations with the following calibration drift messages Message Text [22] Calibration tolerance exceeded at zero point. [23] Validation tolerance exceeded at zero point. [24] Calibration tolerance exceeded at span point. [25] Validation tolerance exceeded at span point.
  • Page 120 Functions 6.7 [2.08] Settings > Calibrations Non-permissible calibration Table 6- 8 Non-permissibility of calibrations with the following messages for pressure sensors Message Text [15] Sample gas pressure outside tolerance. [16] Sample gas pressure uncertain. [17] Reference gas flow measurement uncertain. [18] Reference gas pressure too low.
  • Page 121: [2.08.1] Setpoints, Tolerances, Purging Time

    Functions 6.7 [2.08] Settings > Calibrations 6.7.3 [2.08.1] Setpoints, tolerances, purging time 6.7.3.1 Overview This menu gives you access to the settings you need for preparation of a calibration/validation. The menu contains the following submenus: Table 6- 11 Setpoints, Tolerances, Purging Time Structure of the navigation lines Setpoints Edit ►...
  • Page 122 Functions 6.7 [2.08] Settings > Calibrations 1. Main menu > "2. Settings" > "08. Calibrations" > "1. Setpoints, tolerances, purge time" > "1. Setpoints" In this component-specific menu you can enter the setpoints for zero gas and span gas calibrations for each measuring range. The unit and format of the input correspond to the default settings of the respective component.
  • Page 123: Setting Validation Tolerances

    Functions 6.7 [2.08] Settings > Calibrations 6.7.3.3 Setting validation tolerances Procedure 1. Main menu > "2. Settings" > "08. Calibrations" > "1. Setpoints, tolerances, purge time" > "2. Validation tolerances" The settings of this menu cause the device to monitor the deviations of the zero point or span point compared to the last calibration.
  • Page 124: Setting The Calibration Tolerances

    Functions 6.7 [2.08] Settings > Calibrations 6.7.3.4 Setting the calibration tolerances Procedure 1. Main menu > "2. Settings" > "08. Calibrations" > "1. Setpoints, tolerances, purge time" > "3. Calibration tolerances" The settings of this menu cause the device to monitor the deviations of the zero point or span point compared to the last calibration.
  • Page 125 Functions 6.7 [2.08] Settings > Calibrations Depending on the hardware of the device, the sample gas purging time can be set device- specific or module-specific: Table 6- 12 Effect of the sample gas purging time Device-specific Module-specific If only one analyzer module is installed or if a If two analyzer modules with separate gas paths common gas path exists for two analyzer mod- are installed, set the parameters separately for...
  • Page 126: [2.08.2] Calibration Pool

    Functions 6.7 [2.08] Settings > Calibrations 6.7.4 [2.08.2] Calibration pool 6.7.4.1 Overview The calibration pool allows you to define up to 36 memory locations for individual calibrations. The calibration pool entries are arranged numerically, remain permanently saved, and can be triggered immediately or at a later point in time. Table 6- 13 Calibration pool (Example) Structure of the navigation lines...
  • Page 127 Functions 6.7 [2.08] Settings > Calibrations 3. Specify calibration type: "Calibration type" parameter field. – If you select "2-pt.", zero gas calibration and span gas calibration are executed one after the other. Otherwise you set either a zero gas calibration or a span gas calibration.
  • Page 128: [2.08.3] Execute Calibrations

    Functions 6.7 [2.08] Settings > Calibrations 6.7.5 [2.08.3] Execute calibrations 6.7.5.1 [2.08.3.1] Use calibration pool Overview If you want to execute a calibration/validation with a specifically selected calibration pool entry, you can use this menu. The wizard-driven calibration/validation can be used any number of times.
  • Page 129: [2.08.3.2] Free Calibration

    Functions 6.7 [2.08] Settings > Calibrations 6.7.5.2 [2.08.3.2] Free calibration Overview You can use this menu if you do not require the calibration pool or if you wish to carry out a trial calibration/validation. Parameter settings of free calibrations/validations are not saved in the calibration pool. The wizard-driven processes can be used any number of times.
  • Page 130 Functions 6.7 [2.08] Settings > Calibrations 4. Specify the scope of the calibration: "Single/total" parameter box. By setting this function, you define the scope of the calibration to one or all measuring ranges. The measuring range which was set in the calibration is always calibrated. –...
  • Page 131: [2.08.4] Autocal/Autoval 1 And [2.08.5] Autocal/Autoval 2

    AutoVal sequences from validations. Parameters can be assigned for these steps according to the user's requirements. SIPROCESS GA700 devices give you the option to set up two AutoCal-/AutoVal sequences. This yields many possible combinations, which you can set up independent of the...
  • Page 132: Setting The Autocal/Autoval Sequence

    Functions 6.7 [2.08] Settings > Calibrations If the analyzer module determines a tolerance violation during calibration of a gas component, the corresponding sequence step is ended and the AutoCal process is continued as planned. But the tolerance violation is entered into the logbook of the device. If you cancel an AutoCal, the currently executed sequence step is canceled and the entire sequence is aborted.
  • Page 133 Functions 6.7 [2.08] Settings > Calibrations Procedure 1. Main menu > "2. Settings" > "08. Calibrations" > "4. AutoCal/AutoVal 1" > "2. Sequence" Main menu > "2. Settings" > "08. Calibrations" > "5. AutoCal/AutoVal 2" > "2. Sequence" Both menus have the same structure and show the sequence within one of the two possible AutoCal/AutoVal procedures.
  • Page 134: Setting The Autocal/Autoval Mode

    Functions 6.7 [2.08] Settings > Calibrations 4. Make any additional settings, if necessary: Process Parameter fields to be set Calibration 01 to 36 Enter purge time per calibration point. Purge time, here: Time for which the device remains at the cali- bration point.
  • Page 135 Functions 6.7 [2.08] Settings > Calibrations Procedure Note Setting instructions The "countdown" for the next cycle starts each time you start a cyclic AutoCal/AutoVal. The following applies to prevent a cycle "B" from starting immediately after a cycle "A": The configured cycle time must be longer than the execution time of the running AutoCal/AutoVal.
  • Page 136 Functions 6.7 [2.08] Settings > Calibrations 4. Define the cycle time: "Cycle time" parameter field. Note Specifying the cycle time The cycle time always extends from the start time of one AutoCal/AutoVal sequence to the start time of the next. The smallest cycle time is 1 hour. If the set cycle time is less than the actual expiration time required, then: •...
  • Page 137: [2.09] Settings > Inputs/Outputs

    The availability of this menu depends on the configuration of your analyzer. The menu is displayed only if you have optional module 2.2 in your SIPROCESS GA700 device. The menu allows you to access the parameters of the four analog inputs provided by the optional module 2.2.
  • Page 138 Functions 6.8 [2.09] Settings > Inputs/outputs 3. Set the measured value type. Note Effect By setting this parameter, you decide the type of values read in via the analog input. With your selection, you also restrict the area of application of the analog input. Values labeled "Pressure"...
  • Page 139 Functions 6.8 [2.09] Settings > Inputs/outputs 3. Specify the input range: "Analog input range" parameter box. Set one of the two possible current ranges: – 4 to 20 mA – 0 to 20 mA 4. Set the unit of the measured value: "Unit" parameter box. The following units can be set depending on the measured value type –...
  • Page 140 Functions 6.8 [2.09] Settings > Inputs/outputs 3. Specify the start-of scale and full-scale value of the analog input range: Parameter boxes "Start-of-scale value for 0/4 mA" or "Full-scale value for 20 mA". The start-of-scale and full-scale values must always be identical to those of the device feeding in.
  • Page 141: [2.09.2] Analog Output

    Functions 6.8 [2.09] Settings > Inputs/outputs 6.8.2 [2.09.2] Analog output 6.8.2.1 Overview Note Availability of the menu This menu is only available if your device has at least one of the optional modules (2.1 and/or 2.2). Behavior of analog outputs The settings of the analog outputs are component-specific and depend on the currently set measuring range.
  • Page 142: Setting The Analog Outputs

    Functions 6.8 [2.09] Settings > Inputs/outputs 6.8.2.2 Setting the analog outputs Procedure Note Component-specific setting An analog output is available for each component. Repeat the procedure described below for all components, if necessary. 1. Component > Main menu > "2. Settings" > "09. Inputs/outputs" > "2. Analog output" The parameter display is opened.
  • Page 143: [2.09.3] Digital Inputs

    Functions 6.8 [2.09] Settings > Inputs/outputs 6.8.3 [2.09.3] Digital inputs 6.8.3.1 Overview of digital inputs Functions The device functions can be controlled using digital inputs. A function can only be controlled by one digital input or one result of logic operation. Note Function suppression dependent on the operating mode If the device is in the "Function check"...
  • Page 144 Functions 6.8 [2.09] Settings > Inputs/outputs Assignments of function (pre-selection) - function Note Assignment rule To assign a function, you first make a pre-selection and then set a function that is included in the pre-selection: → Setting digital inputs (Page 148). The device excludes the multiple assignment of functions.
  • Page 145 Functions 6.8 [2.09] Settings > Inputs/outputs Table 6- 19 Function assignment at function (pre-selection): "Ext. funct. check" Function Trigger Remark / effect Function check 1 to External function check 1 ... 8: A different device signals "Function check". Negative/positive edge "Level-triggered": activation by negative signal edge, deactivation by positive signal edge.
  • Page 146 Functions 6.8 [2.09] Settings > Inputs/outputs Table 6- 21 Function assignment at function (pre-selection): "AutoCal" Function Trigger Remark / effect AutoCal1/ Start AutoCal 1 or AutoCal 2. AutoCal2 Positive edge AutoVal1/ Start AutoVal 1 or AutoVal 2. AutoVal2 Positive edge AutoCal1 Sync./ Start AutoCal n/AutoVal n in sync.
  • Page 147 Functions 6.8 [2.09] Settings > Inputs/outputs Table 6- 23 Function assignment at function (pre-selection): "Other functions" Function Trigger Remark / effect Switch pump Switch sample gas pump The pump is switched on at a positive edge and switched off at a negative edge.
  • Page 148: Setting Digital Inputs

    Functions 6.8 [2.09] Settings > Inputs/outputs 6.8.3.2 Setting digital inputs Procedure 1. Main menu > "2 Settings" > "09 Inputs/outputs" > "3 Digital inputs" Up to 20 digital inputs can be assigned, depending on the hardware of your device. A navigation line with the following structure is assigned to each digital input: Structure of the navigation line for each digital input Navigation no.
  • Page 149 Functions 6.8 [2.09] Settings > Inputs/outputs 4. Select function (pre-selection) and functions of the digital input: "Function (pre-selection)" and "Function" parameter boxess. Use the information in the tables below when setting the pre-selection: → Table 6-17 Function assignment at function (pre-selection): "Free" (Page 144). →...
  • Page 150: [2.09.4] Di Links

    Functions 6.8 [2.09] Settings > Inputs/outputs 6.8.4 [2.09.4] DI links 6.8.4.1 Overview of DI links Note Linking digital inputs You can logically combine up to eight digital inputs using "AND" and "OR" logic operations. The results of the logic operations, as virtual digital inputs, can also be part of a link and serve to control functions.
  • Page 151 Functions 6.8 [2.09] Settings > Inputs/outputs Procedure 1. Main menu > "2. Settings" > "09. Inputs/outputs" > "4 DI links" The menu includes eight navigation lines for digital input links. Each of these links can access up to eight digital inputs or digital input links. Structure of the navigation line for each DI link Navigation no.
  • Page 152: [2.09.5] Digital Outputs

    Functions 6.8 [2.09] Settings > Inputs/outputs 5. Select function (pre-selection) and functions of the logic operation: "Function (pre- selection)" and "Function" parameter fields. Note Assignment rule The device excludes the multiple assignment of functions. When you assign a function, this function is no longer available for other digital inputs or for links to such inputs. –...
  • Page 153: Functions

    Functions 6.8 [2.09] Settings > Inputs/outputs The digital outputs can be used for different tasks, for example, signaling or control of valves. The corresponding functions can be assigned to several digital outputs. These digital outputs can perform the following tasks: ●...
  • Page 154 Functions 6.8 [2.09] Settings > Inputs/outputs Function Remark/cause Active level Fct. check Total function check: signaling of function check at device level Fct.check AM1/AM2 Function check at module level: signaling of function check for analyzer modules 1 or 2 Free No function assignment Limit 1/2 Signaling of limit violation of limit 1 or 2.
  • Page 155: Setting Digital Outputs

    Functions 6.8 [2.09] Settings > Inputs/outputs See also Setting functions/components of a digital output (Page 156) 6.8.5.3 Setting digital outputs Procedure 1. Main menu > "2. Settings" > "09. Inputs/outputs" > "5 Digital outputs" The menu includes navigation lines for access to all available digital outputs. The number of available digital outputs depends on the hardware of your device.
  • Page 156: Setting Functions/Components Of A Digital Output

    Functions 6.8 [2.09] Settings > Inputs/outputs 4. Set function or component: "Component" or "Function" parameter box. Set component and function: – Table 6-31 Function (pre-selection) "Measuring ranges" (Page 158) – Table 6-33 Function (pre-selection) "Solenoid valves" (Page 158) – Table 6-29 Function (pre-selection) "Limit" (Page 157) Set function only: –...
  • Page 157 Functions 6.8 [2.09] Settings > Inputs/outputs Table 6- 27 Function (pre-selection) "Fault" Function (pre- Purpose/resulting settings selection) Fault Signal fault. 1. "Function" parameter box: Authorize access with corresponding PIN, if necessary. 2. Set "Fault" value. Table 6- 28 Function (pre-selection) "Maintenance alarm", "Maintenance demanded", and "Mainte- nance required"...
  • Page 158 Functions 6.8 [2.09] Settings > Inputs/outputs Table 6- 31 Function (pre-selection) "Measuring ranges" Function (pre- Purpose/resulting settings selection) Measuring ranges Specify measuring range to be displayed. 1. "Component" parameter box: – Authorize access with corresponding PIN, if necessary. – Select available component. 2.
  • Page 159 Functions 6.8 [2.09] Settings > Inputs/outputs Table 6- 34 Function (pre-selection) "DI links" Function (pre- Purpose/resulting settings selection) DI link Switch linked digital inputs. 1. "Function" parameter box: Authorize access with corresponding PIN, if necessary. 2. Select one of the displayed links. Additional linking properties are: –...
  • Page 160: [2.10] Settings > Correction Of Cross-Interferences

    Functions 6.9 [2.10] Settings > Correction of cross-interferences [2.10] Settings > Correction of cross-interferences 6.9.1 Overview Sample gases may also contain other gases to which devices may have cross-sensitivity. These so-called interference gases can distort the sample gas measured values. The measured value distortions can be mathematically corrected with a constant or with a correction of cross-interferences related to the measured value.
  • Page 161: Application Scenarios

    Functions 6.9 [2.10] Settings > Correction of cross-interferences With the quadratic correction of cross-interference (ULTRAMAT 7), two correction coefficients are determined for two distinctly different interference gas concentrations. One correction coefficient operates linearly, the other as a square of the interference gas concentration.
  • Page 162 Functions 6.9 [2.10] Settings > Correction of cross-interferences Table 6- 39 OXYMAT 7: Application 3 Description of application 3 Conditions The actual interference gas concentration is variable. • The influence of interference gas is known and stored in the interference gas reference table. •...
  • Page 163: Ultramat 7 Application Scenarios

    Functions 6.9 [2.10] Settings > Correction of cross-interferences Table 6- 41 OXYMAT 7: Application 5 Description of application 5 Conditions The interference gas concentration is variable. • The influence of the interference gas is not known and will be determined by the wizard. •...
  • Page 164 Functions 6.9 [2.10] Settings > Correction of cross-interferences Table 6- 43 ULTRAMAT 7: Application scenario 2 Description of application scenario 2 Conditions The interference gas concentration is variable • The influence of interference gas is known and can be entered. •...
  • Page 165: Calomat 7 Application Scenarios

    • Scenario 1: The operating conditions are known and taken into account when ordering. • Scenario 2: The operating conditions are not known when ordering or need to be changed. In this case, contact your Siemens partner → AUTOHOTSPOT. Table 6- 45...
  • Page 166: Setting Instructions

    → Application scenario 1, preceding table. Service action: The reference values/correction coefficients are determined • again at the factory based on the application. A Siemens service technician transfers the changed correction coefficients locally to the affected analyzer module.
  • Page 167 Functions 6.9 [2.10] Settings > Correction of cross-interferences Note Avoid loops (with the variable correction of cross-interference) Loops in the correction of cross-references can result in incorrect measured values. The device does not detect loops. The measured-value status is set to "Uncertain" or "Invalid". Assign the parameters for the correction of cross-references so that the components are not corrected reciprocally with each other.
  • Page 168: Setting The Correction Of Cross-Interference

    Functions 6.9 [2.10] Settings > Correction of cross-interferences 6.9.5 Setting the correction of cross-interference Procedure 1. Component > Main menu > "2. Settings" > "10. Correction of cross-interference" The menu includes six navigation lines that you use to set or activate the correction of cross-interferences for the selected component.
  • Page 169: Oxymat 7

    Functions 6.9 [2.10] Settings > Correction of cross-interferences 6.9.6 OXYMAT 7 6.9.6.1 Assigning correction of cross-interference with a constant Procedure with OXYMAT 7 1. Component > Main menu > "2. Settings" > "10. Correction of cross-interference" > "2 Constant" 2. Enable/disable correction of cross-interference: "Correction of cross-interference" parameter field.
  • Page 170: Assigning Variable Correction Of Cross-Interference

    Functions 6.9 [2.10] Settings > Correction of cross-interferences 6.9.6.2 Assigning variable correction of cross-interference Procedure with OXYMAT 7 1. Component > Main menu > "2. Settings" > "10. Correction of cross-interference" > "3 ... 6 ..." 2. Enable/disable correction of cross-interference: "Correction of cross-interference" parameter field.
  • Page 171 Functions 6.9 [2.10] Settings > Correction of cross-interferences Source of correction value "Device-internal"/"Analog input" "MODBUS TCP" Enter substitute value for the externally • measured interference gas concentra- tion. If the measurement of the interference gas concentration fails, the set substitute value is used for the correction of cross- interference.
  • Page 172: Ultramat 7

    Functions 6.9 [2.10] Settings > Correction of cross-interferences 6.9.7 ULTRAMAT 7 6.9.7.1 Assigning correction of cross-interference with a constant Procedure with ULTRAMAT 7 1. Component > Main menu > "2. Settings" > "10. Correction of cross interference" > "2 Constant" 2.
  • Page 173 Functions 6.9 [2.10] Settings > Correction of cross-interferences 3. Select source for correction value: "Source of correction value" parameter field The following sources can be set for the correction of cross-interference: – "Device-internal" – "MODBUS TCP" – "Analog input" (with installed option module 2) NOTICE Malfunction of the device with correction of cross-interference via an analog input The following applies to prevent the device from malfunctioning: Make sure that the...
  • Page 174: Calomat 7

    Functions 6.9 [2.10] Settings > Correction of cross-interferences 4. Specify correction coefficient(s). Use the manual input options or start wizard-guided determination. Specify correction coefficient Manual input Wizard-guided determination Enter the coefficients in the "Coefficient" Execute wizard: • • and/or "Coefficient (*x )"...
  • Page 175 MODBUS or the analog inputs of the CALOMAT 7 analyzer module. With correction of cross-interference with SIPROCESS GA700 devices, the linear correction coefficients are application-dependent and are therefore set as default in the factory. No further parameter settings are required...
  • Page 176: Assigning Correction Of Cross-Interference With A Constant

    Functions 6.9 [2.10] Settings > Correction of cross-interferences Procedure Note Order of the settings The following applies before you activate correction of cross-interference in the application "H in N (Q)" (" application 'furnace gas ', 'converter gas' and ‘wood distillation'"): •...
  • Page 177: Assigning Variable Correction Of Cross-Interference

    Functions 6.9 [2.10] Settings > Correction of cross-interferences 4. If necessary, change assignment of process tags for correction of cross-interference Note Setting instruction You can only change the assignment of process tags for correction of cross-interference if process tag switching is enabled. To do this, proceed as follows: •...
  • Page 178 Functions 6.9 [2.10] Settings > Correction of cross-interferences 3. Select source for correction value: "Source of correction value" parameter field The following sources can be set for the correction of cross-interference: – "Device-internal" – "MODBUS TCP" – "Analog input" (with installed option module 2) NOTICE Malfunction of the device with correction of cross-interference via an analog input The following applies to prevent the device from malfunctioning: Make sure that the...
  • Page 179: Enabling/Disabling All Corrections Of Cross-Interferences

    Alternatively, the measured value can be corrected with external process values that are provided by another SIPROCESS GA700 device via MODBUS TCP or via an analog input (option module 2).
  • Page 180: Setting Instructions

    Functions 6.10 [2.11] Settings > Pressure sensor selection You can cover a larger sample gas pressure range (max. 3 bar absolute) by connecting an external absolute pressure sensor. For additional information, refer to the references t the end of this section. CALOMAT 7 You can use external pressure sensors to correct the influence of pressure.
  • Page 181: Using Device-Internal Pressure Sensor

    Functions 6.10 [2.11] Settings > Pressure sensor selection See also Using device-internal pressure sensor (Page 181) Measured signal (Page 215) Note Pressure compensation With OXYMAT 7 and CALOMAT 7 analyzer modules, the pressure compensation is activated automatically by the selection of the signal source. With ULTRAMAT 7 analyzer modules, the activation status of the pressure compensation is displayed in the menu "[3.05.1.2] Measured signal Part 2"...
  • Page 182: Integrating External Pressure Sensor Via Modbus Tcp

    The following requirements must be met before you can connect an external pressure sensor via an analog input: ● Option module 2.2 is installed. ● Pressure sensor is connected correctly. ● SIPROCESS GA700 analog inputs are configured accordingly. Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 183: [2.12] Settings > Gas Path/Process Tag Label

    Functions 6.11 [2.12] Settings > Gas path/process tag label Procedure 1. Component > Main menu > "2. Settings" > "11 Pressure sensor selection" The currently set signal source and the currently measured pressure are displayed. 2. Set the signal source: "Signal source" parameter field. –...
  • Page 184 Functions 6.11 [2.12] Settings > Gas path/process tag label Procedure 1. Component > Main menu > "2 Settings" > "12 Gas path/process tag label" 2. Set the design: "Gas path" parameter field. Authorize access with Expert PIN, if necessary. Specify the design: –...
  • Page 185: [2.13] Setting > Process Tag Switchover

    Functions 6.12 [2.13] Setting > Process tag switchover 6.12 [2.13] Setting > Process tag switchover 6.12.1 Setting the process tag switchover Procedure 1. Component > Main menu > "2. Settings" > "13. Process tag switchover" The menu includes 13 navigation lines that you use to assign the process tags for automatic process tag switchover.
  • Page 186: Enabling/Disabling All Process Tags

    Functions 6.12 [2.13] Setting > Process tag switchover Procedure 1. Main menu > "2. Settings" > "13. Process tag switchover" > "02.." to "13.." 2. Specify the sequence of the process tags within the automatic process tag switchover: "Move position to"...
  • Page 187: [2.14] Settings > Set Message Parameters

    Functions 6.13 [2.14] Settings > Set message parameters 6.13 [2.14] Settings > Set message parameters 6.13.1 Set message parameters Procedure 1. Main menu > "2 Settings" > "14. Set message parameters" This menu includes a filter in addition to the current messages that you can use to influence the display range of this menu.
  • Page 188: Filtering Messages

    Functions 6.13 [2.14] Settings > Set message parameters 6.13.2 Filtering messages Procedure 1. Main menu > "2. Settings" > "14. Set message parameters" > "1. Filter..." 2. Set the filter conditions. Set one or more filter conditions. Use the following parameter fields or editing windows for this purpose: –...
  • Page 189: Set Individual Message Parameters

    Functions 6.13 [2.14] Settings > Set message parameters 6.13.3 Set individual message parameters Procedure 1. Main menu > "2. Settings" > "14. Configure messages" >"..." Select one of the displayed messages. The message text is displayed in the displayed menu. 2.
  • Page 190: [2.20] Settings > Service

    Functions 6.14 [2.20] Settings > Service 6.14 [2.20] Settings > Service 6.14.1 [2.20.02] Heaters 6.14.1.1 [2.20.02] Heaters OXYMAT 7 Service menu. You only have read access. The following information is displayed in this menu: ● Indication of the type of installed sample chamber. ●...
  • Page 191: Note On Setting

    Functions 6.14 [2.20] Settings > Service 6.14.2.2 Note on setting Changing the signal frequency This function is used to set the setpoint for magnetic field frequency. Changing the frequency of the signal can prevent interference between two analyzer modules. For this, you can also enter either the nominal frequency, the displayed alternative signal frequency or a frequency you select yourself.
  • Page 192 Functions 6.14 [2.20] Settings > Service Note Combined operation with ULTRAMAT 7: Signal frequency of the OXYMAT 7 If you use an OXYMAT 7 and an ULTRAMAT 7 analyzer module in combined operation, the default OXYMAT 7 signal frequency can have a negative influence on the ULTRAMAT 7 analyzer module.
  • Page 193: [2.20.03] Factory Calibrations Ultramat 7

    Functions 6.14 [2.20] Settings > Service Executing normalization Note Measured value errors If you change the setpoints but do not normalize the module, the changed values are saved and the measured value is calculated incorrectly. After you have changed one or both setpoint settings, always run a normalization! 1.
  • Page 194 Functions 6.14 [2.20] Settings > Service Note Changing the nominal frequency When you change the signal frequency, you are prompted to run a normalization calibration. 1. Main menu > "2. Settings" > "20. Service > "03. Factory calibrations" > "01. Signal frequency".
  • Page 195: [2.20.03] Factory Calibrations Calomat 7

    Functions 6.14 [2.20] Settings > Service Executing normalization Note Measured value errors If you change the setpoints but do not normalize the module, the changed values are saved and the measured value is calculated incorrectly. After you have changed one or both setpoint settings, always run a normalization! 1.
  • Page 196: [2.20.04] Calibrate Pressure Sensor

    Functions 6.14 [2.20] Settings > Service Note Measured value errors If you change the setpoints but do not normalize the module, the changed values are saved and the measured value is calculated incorrectly. After you have changed one or both setpoint settings, always run a normalization! 1.
  • Page 197: [2.20.04] Calibrate Pressure Sensor Oxymat 7

    Functions 6.14 [2.20] Settings > Service → [2.20.04] Calibrate pressure sensor OXYMAT 7 (Page 197) → [2.20.04] Calibrate pressure sensor ULTRAMAT 7 (Page 198) → [2.20.04] Calibrate pressure sensor CALOMAT 7 (Page 198) 6.14.3.2 [2.20.04] Calibrate pressure sensor OXYMAT 7 Procedure 1.
  • Page 198: [2.20.04] Calibrate Pressure Sensor Ultramat 7

    Functions 6.14 [2.20] Settings > Service 6.14.3.3 [2.20.04] Calibrate pressure sensor ULTRAMAT 7 Procedure 1. Main menu > "2. Settings" > "20. Service > "04. Calibrate pressure sensor". This function calibrates the pressure sensor. A linear correction coefficient is used for this purpose.
  • Page 199: [2.20.06] Reference Gas Pump Oxymat 7

    Functions 6.14 [2.20] Settings > Service 6.14.4 [2.20.06] Reference gas pump OXYMAT 7 Requirements Note Availability of the menu This menu is displayed only for OXYMAT 7 analyzer modules of the low-pressure version. ● You use an external reference gas pump. Procedure 1.
  • Page 200: [2.20.10] Name/Unit

    Functions 6.14 [2.20] Settings > Service 6.14.5 [2.20.10] Name/unit Procedure 1. Main menu > "2 Settings" > "20. Service" > "10. Name/unit" This menu is used for setting the component name and to select the appropriate unit. Note Component names with several meanings/assigned several times If you assign names several times, the components cannot be distinguished in the main view and during navigation.
  • Page 201: [2.20.11] Physical Measuring Range

    Functions 6.14 [2.20] Settings > Service The current measured value is output in the unit "ppm" ("Measured value in ppm" display field) and in the user-defined unit ("Meas. value in act. unit"). – Unit not "ppm" or "User-defined" When you set this unit, the conversion factor for the unit "ppm" is displayed. The current offset (actual unit) and the measured value in the unit "ppm"...
  • Page 202: 12] Switch Message System Off/On

    Functions 6.14 [2.20] Settings > Service 6.14.7 [2.20.12] Switch message system off/on Service menu. You only have read access. This menu displays the activation status of the message system. NOTICE Damages caused by switched-off message system If the message system is switched off, all diagnostics-relevant functions of the device are disabled.
  • Page 203: [3.01] Maintenance & Diagnostics > Current Messages

    Procedure Note Distinction SIPROCESS GA700 distinguishes between messages that require acknowledgment and messages that do not require acknowledgment. Messages not requiring acknowledgement are cleared if the problem causing them no longer exists. Messages that require acknowledgment are identified by the symbol □ and are revoked when the cause of the message is no longer present and an acknowledgment is made.
  • Page 204: Filtering Current Messages

    Functions 6.15 [3.01] Maintenance & Diagnostics > Current messages 6.15.2 Filtering current messages Procedure 1. Main menu > "3. Maintenance & diagnostics" > "01. Current messages" > "1. Filter" 2. Set the filter conditions. Set one or more filter conditions. Use the following parameter fields or editing windows for this purpose: –...
  • Page 205: Reading Current Messages

    Functions 6.15 [3.01] Maintenance & Diagnostics > Current messages 6.15.3 Reading current messages Procedure 1. Main menu > "3. Maintenance & Diagnostics" > "01. Current messages" > This menu includes all messages that match your parameter assignment under → [2.14] Settings >...
  • Page 206: [3.02] Maintenance & Diagnostics > Messages To Be Acknowledged

    Procedure Note Distinction SIPROCESS GA700 distinguishes between messages that require acknowledgment and messages that do not require acknowledgment. Messages not requiring acknowledgement are cleared if the problem causing them no longer exists. Messages that require acknowledgment are identified by the symbol □ and are revoked when the cause of the message is no longer present and an acknowledgment is made.
  • Page 207: Acknowledge Message

    Functions 6.16 [3.02] Maintenance & Diagnostics > Messages to be acknowledged 6.16.2 Acknowledge message Procedure 1. Main menu > Main menu > "3. Maintenance & Diagnostics" > "2. Messages to be acknowledged" > "1. Messages to be acknowledged" This menu includes all messages to be acknowledged that match your parameter assignment under [2.14] Settings >...
  • Page 208: Acknowledge All Messages

    Functions 6.17 [3.03] Maintenance & Diagnostics > Logbook 6.16.3 Acknowledge all messages Procedure 1. Main menu > "3. Maintenance & Diagnostics" > "2 Messages to be acknowledged" > "2. Acknowledge all" 2. "Acknowledge all messages" parameter field – Enter user pin The acknowledgment is triggered immediately after the Standard PIN is entered.
  • Page 209: [3.03] Maintenance & Diagnostics > Logbook

    Functions 6.17 [3.03] Maintenance & Diagnostics > Logbook 6.17 [3.03] Maintenance & Diagnostics > Logbook 6.17.1 Overview of logbook Structure The logbook is formed from the device-specific and module-specific partial logbooks. These logbooks log all operator control actions and reactions of the device or the modules. A logbook includes historical information that does not reflect the current status.
  • Page 210 Functions 6.17 [3.03] Maintenance & Diagnostics > Logbook Entries The table below gives you an overview of the different types of logbook entries: Table 6- 51 Logbook entries (types) Entry type Brief description You will find the following information in all logbook entries: Place of origin (component/module) •...
  • Page 211 Functions 6.17 [3.03] Maintenance & Diagnostics > Logbook Entry type Brief description Changing the system "Plug & Measure message": → Type of Plug & Measure mes- • configuration sage "Type of change": → Type of configuration change • "Affected module": → ID of the changed module •...
  • Page 212: [3.03.1] Display Logbook

    Functions 6.17 [3.03] Maintenance & Diagnostics > Logbook Entry type Brief description AutoVal "Operation":→ AutoCal 1, AutoCal 2, AutoVal 1 or AutoVal 2 • "Action": → Started, completed or failed • "Result":→ Result of the AutoCal procedure • Reset drift values Display ID and type of reset drift values.
  • Page 213: [3.03.1] Filter Logbook Entries

    Functions 6.17 [3.03] Maintenance & Diagnostics > Logbook Structure of the navigation lines Components or modules that have created this logbook entry. Editing line The current time is also displayed as reference in the status bar of the display. 2. Select and open menu entry: Main menu >...
  • Page 214: [3.03.2] Delete Logbook

    Functions 6.18 [3.04] Maintenance & Diagnostics > Measured value status 6.17.4 [3.03.2] Delete logbook Procedure 1. Main menu > "3. Maintenance & Diagnostics" > "3. Logbook > "2. Delete logbook" When you activate this function, all logbook entries are deleted. It is not possible to remove single entries.
  • Page 215: [3.05] Maintenance & Diagnostics > Diagnostics Values

    Functions 6.19 [3.05] Maintenance & Diagnostics > Diagnostics values 6.19 [3.05] Maintenance & Diagnostics > Diagnostics values 6.19.1 [3.05.1] Measured signal diagnostics 6.19.1.1 Measured signal Overview This menu provides you access to status information/current values that you can use to evaluate the quality of the measured signal: The access paths vary depending on the installed analyzer modules: ●...
  • Page 216 Functions 6.19 [3.05] Maintenance & Diagnostics > Diagnostics values Parameter Description Pressure switch ref. Not displayed on OXYMAT 7 without pressure switch p1 reference gas Reference gas pressure Only for OXYMAT 7 with flow monitoring p2 reference gas Reference gas flow Measured value ULTRAMAT 7: Evaluation of the measured signal quality Table 6- 53...
  • Page 217: Heating Controller

    Functions 6.19 [3.05] Maintenance & Diagnostics > Diagnostics values Parameter Description C norm Cal Normalized concentration measured value after calibration Chopper frequency C abs Absolute concentration measured value Measured value CALOMAT 7: Evaluation of the measured signal quality Table 6- 55 CALOMAT 7: [3.05.1.1] Measured signal Parameter Description...
  • Page 218: [3.05.2] Predictive Self-Diagnostics Ultramat 7

    Functions 6.19 [3.05] Maintenance & Diagnostics > Diagnostics values OXYMAT 7: Status information for the heating control Table 6- 56 OXYMAT 7: [3.05.1.3] Heating controller Parameter Description Temp. measuring head Current temperature measured values Temp. sample chamber Temp. heating element Temp.
  • Page 219: [3.05.3] Electric Parameters

    Functions 6.19 [3.05] Maintenance & Diagnostics > Diagnostics values Only ULTRAMAT 7: predictive self-diagnostics Table 6- 58 ULTRAMAT 7: [3.05.2] Predictive self-diagnostics Parameter Description Source intensity High alarm limit Maximum positive deviation of the source intensity (in %). A maintenance alarm is signaled on a high limit violation. High warning limit Maximum positive deviation of the source intensity (in %).
  • Page 220 Functions 6.19 [3.05] Maintenance & Diagnostics > Diagnostics values Display Table 6- 59 [3.05.3.1] to [3.05.3.4] Electrical parameters Parameter [3.05.03.1] = Analyzer Module 1 and [3.05.03.2] = Analy- [3.05.03.4] sis Module 2 OXYMAT 7 ULTRAMAT 7 CALOMAT 7 Reference voltage 2.5 Supply voltage 3.3 V Supply voltage +5 V Supply voltage -5 V...
  • Page 221: [3.05.4] Inputs/Outputs

    Functions 6.19 [3.05] Maintenance & Diagnostics > Diagnostics values 6.19.4 [3.05.4] Inputs/outputs 6.19.4.1 [1] Analog inputs Service menu. You only have read access. In this menu you get information about the actual current values of the available analog inputs. The following information is displayed for each analog input: Navigation lines in the menu [3.05.4.1] Standard name of the analog input User-specific name...
  • Page 222: Digital Inputs

    Functions 6.19 [3.05] Maintenance & Diagnostics > Diagnostics values 6.19.4.3 [3] Digital inputs You only have read access. In this menu you can get information on the function assigned for each input as well as the status of the input (High/Low). The following information is displayed for each digital input: Navigation lines in the menu [3.05.4.3.0.n] Current status Low/ High...
  • Page 223: [3.05.5] Communications

    Functions 6.19 [3.05] Maintenance & Diagnostics > Diagnostics values 6.19.5 [3.05.5] Communications 6.19.5.1 MODBUS TCP node Procedure 1. Main menu > "3. Maintenance & Diagnostics" > "5. Diagnostics values" > "5. Communication" > "1. MODBUS TCP node" You can use this menu to display and check the parameter assignments of the individual nodes.
  • Page 224: Modbus Tcp Digital Inputs

    Functions 6.19 [3.05] Maintenance & Diagnostics > Diagnostics values 6.19.5.2 MODBUS TCP digital inputs Procedure 1. Main menu > "3. Maintenance & Diagnostics" > "5. Diagnostics values" > "5. Communications" > "2. MODBUS TCP digital inputs" You can use this menu to display and check the parameter assignments of the individual digital inputs.
  • Page 225: [3.06] Maintenance & Diagnostics > Drift Values

    Functions 6.20 [3.06] Maintenance & Diagnostics > Drift values 6.20 [3.06] Maintenance & Diagnostics > Drift values 6.20.1 Editing zero point drift values Procedure 1. Main menu > "3. Maintenance & Diagnostics" > "6. Drift values" > "1. Zero point drift" This menu includes the following information on each measuring range which makes it easier for you to detect/monitor the zero point drift: –...
  • Page 226: Editing Qal3 Drift Values

    Functions 6.20 [3.06] Maintenance & Diagnostics > Drift values 6.20.2 Editing QAL3 drift values Procedure 1. Main menu > "3. Maintenance & Diagnostics" > "6. Drift values" > "2. QAL3 drift values" The following QAL3 drift values are displayed for each measuring range: –...
  • Page 227: [3.08] Maintenance & Diagnostics > Maintenance Intervals

    Functions 6.21 [3.08] Maintenance & Diagnostics > Maintenance intervals 6.21 [3.08] Maintenance & Diagnostics > Maintenance intervals 6.21.1 Displaying maintenance intervals Procedure 1. Main menu > "3. Maintenance & Diagnostics" > "8. Maintenance intervals" This menu contains all user-assignable maintenance intervals. The menu entries are structured as follows: Structure of the navigation lines Edit ►...
  • Page 228 Functions 6.21 [3.08] Maintenance & Diagnostics > Maintenance intervals 1. Main menu > 3. "Maintenance & diagnostics" > "8. Maintenance intervals" > "..." 2. Specify the message level: "Message type" parameter field – Authorize access with Expert PIN, if necessary. –...
  • Page 229: [3.09] Maintenance & Diagnostics > Identification

    Functions 6.22 [3.09] Maintenance & Diagnostics > Identification 6.22 [3.09] Maintenance & Diagnostics > Identification 6.22.1 Overview This function gives you read access to data pertaining, in particular, to the hardware and firmware of your device. Identification data refer either to the basic device or to a module. The data enable the unique identification of your device.
  • Page 230: Identifying A Device

    4. Write down the identification data, if necessary. The following device-specific data is displayed: Display field Remark Product name SIPROCESS GA700 Article number Part 1 Display of first part of device article number, e.g. "7MB3000". Article number Part 2 Display of second part of device article number, e.g.
  • Page 231: Identifying Analyzer Modules

    • Compare the information on the nodule plate with the identification data of the analyzer module. • If installation/operation is impermissible, deactivate the device • Contact Siemens service → AUTOHOTSPOT. Procedure 1. The access path depends on the hardware configuration: The menu includes all the identification data specified for the analyzer module in the factory.
  • Page 232: Identifying Additional Features

    Functions 6.22 [3.09] Maintenance & Diagnostics > Identification See also Overview (Page 229) 6.22.4 Identifying additional features Procedure 1. The access paths depend on the hardware configuration: The menus include all identification data specified in the factory for the following features: –...
  • Page 233: Identifying Option Modules

    Functions 6.23 [3.10] Maintenance & Diagnostics > Save/load parameter set 6.22.6 Identifying option modules Procedure 1. The access paths depend on the hardware configuration: The menus include all identification data specified in the factory for the following features: – Option module 1 –...
  • Page 234: Save Parameter Set

    Functions 6.23 [3.10] Maintenance & Diagnostics > Save/load parameter set See also Save parameter set (Page 234) Load parameter set (Page 235) 6.23.2 Save parameter set Procedure 1. Main menu > "3. Maintenance and diagnostics" > "10. Save/load parameter set" > "1.
  • Page 235: Load Parameter Set

    Functions 6.24 [3.11] Maintenance & Diagnostics > Test 6.23.3 Load parameter set Procedure 1. Main menu > "3. Maintenance and diagnostics" > "10. Save/load parameter set" > "2. Load parameter set" Depending on the user level, you can load "user data" or "factory data". Use this function to load a parameter assignment saved in the device.
  • Page 236: [3.11] Maintenance & Diagnostics > Test

    Functions 6.24 [3.11] Maintenance & Diagnostics > Test 6.24 [3.11] Maintenance & Diagnostics > Test 6.24.1 Overview of test You can use the submenus in this menu to test inputs/outputs, the display, and the keyboard for functionality. Note "Simulation or substitute value" operating mode (Namur: "Check function") Activation of a test requires registration at the device.
  • Page 237 Functions 6.24 [3.11] Maintenance & Diagnostics > Test Procedure 1. Main menu > "3. Maintenance & diagnostics" > "11. Test" > "1. Test inputs/outputs" > "1. Analog outputs" Use this menu to access the assigned test parameters of all analog outputs. You can also start the test function for all activated analog outputs.
  • Page 238: Testing Analog Inputs

    Functions 6.24 [3.11] Maintenance & Diagnostics > Test 5. Enter setpoints for additional analog outputs, if necessary: Repeat steps 2 to 4. 6. Enable/disable test mode: Main menu > "3. Maintenance & diagnostics" > "11. Test" > "1. Test inputs/outputs" > "1.
  • Page 239 Functions 6.24 [3.11] Maintenance & Diagnostics > Test Procedure 1. Main menu > "3. Maintenance & diagnostics" > "11. Test" > "1. Test inputs/outputs" > "2. Analog inputs" Use this menu to access the assigned test parameters of all analog inputs. You also activate the test function for all activated analog inputs.
  • Page 240 Functions 6.24 [3.11] Maintenance & Diagnostics > Test 3. Assign analog output: "Test with analog output" parameter field. Note Wiring If the assignment does not correspond to the existing wiring between analog outputs and analog inputs, an incorrect test result is output. Therefore check the wiring between analog outputs and analog inputs, if necessary.
  • Page 241: Testing Of Digital Outputs

    • Make sure that the test signals in the control system are treated accordingly as "Test" and that protective tripping is prevented. • If necessary, interrupt the connection between SIPROCESS GA700 and the control system after consultation. Operating with the Local User Interface...
  • Page 242 Functions 6.24 [3.11] Maintenance & Diagnostics > Test Procedure 1. Main menu > "3. Maintenance & diagnostics" > "11. Test" > "1. Test inputs/outputs" > "3. Digital outputs" Use this menu to access the assigned test parameters of all digital outputs. You also activate the test function for all digital outputs.
  • Page 243: Testing Of Digital Inputs

    Functions 6.24 [3.11] Maintenance & Diagnostics > Test 6.24.2.4 Testing of digital inputs Requirement ● Make sure that a suitable test device is connected. Procedure 1. Main menu > "3. Maintenance & diagnostics" > "11. Test" > "1. Test inputs/outputs" > "4.
  • Page 244: [3.11.2] Test Display

    Functions 6.24 [3.11] Maintenance & Diagnostics > Test 6.24.3 [3.11.2] Test display Test the display 1. Main menu > "3. Maintenance & Diagnostics" > "11. Test" > "2. Test display" This test allows you to check whether the display has faulty pixels. Surface areas are displayed successively in the greyscales that can be displayed.
  • Page 245: [3.12] Maintenance & Diagnostics > Cold Restart

    The device uses MODBUS TCP connections for the communication with other SIPROCESS GA700 gas analyzers. A SIPROCESS GA700 gas analyzer can receive measured values from up to seven other gas analyzer simultaneously via MODBUS TCP. The received measured values Operating with the Local User Interface...
  • Page 246 Functions 6.27 [4] Communications can be used, for example, for correction of cross-reference or for pressure compensation of the device's own measured values. IP address Note Supported IP addresses The device supports only Class A, Class B, and Class C addresses. You cannot use Class D or Class E addresses.
  • Page 247: Setting Communication Via Ethernet

    Functions 6.27 [4] Communications 6.27.2 Setting communication via Ethernet First setting Note Plausibility check The parameter assignment of the Ethernet communication is checked for plausibility. Parameter changes that result in inadmissible address combinations are rejected. 1. Main menu > "4. Communications" > "1. Ethernet" 2.
  • Page 248: Setting Communication Via Modbus Tcp

    Functions 6.27 [4] Communications 5. Specify new IP address, if necessary. 6. Set the default gateway address back to its original value. 6.27.3 Setting communication via MODBUS TCP Procedure 1. Main menu > "4. Communications" > "2. MODBUS TCP" > "1. MODBUS TCP node" The menu lists the up to seven MODBUS nodes with which your device can communicate.
  • Page 249: Setting Modbus Digital Inputs

    – Use the corresponding parameter fields "Pressure 1/ 2", "Temperature 1/ 2" and/ or "Flow 1/ 2" for the setting. See also MODBUS TCP node (Page 223) MODBUS interface for SIPROCESS GA700 (Page 284) 6.27.4 Setting MODBUS digital inputs Procedure 1.
  • Page 250 Enter free text. ence ence See also Setting digital inputs (Page 148) Linking digital inputs (Page 150) MODBUS TCP digital inputs (Page 224) MODBUS interface for SIPROCESS GA700 (Page 284) Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 251: 5] Security

    Functions 6.28 [5] Security 6.28 [5] Security 6.28.1 Assigning / changing personal identification numbers (PIN) Procedure 1. Main menu > "5. Security" > "1. Access management" The parameter display includes parameter boxes that you use to specify the PINs of the permission levels.
  • Page 252 Functions 6.28 [5] Security Note Function of automatic log-off When this function is activated and the log-off time expires, the device logs you off automatically. All changes that are not saved permanently will be discarded. Before log-off time expires, a warning window will make you aware of the pending log-off process.
  • Page 253: 6] Language

    Functions 6.29 [6] Language 6.29 [6] Language Setting the language 1. Main menu > "6. Language" The default operating language is displayed. The default setting is "English". 2. Change the language setting: – Press . The displayed list selection includes all available languages. –...
  • Page 254 Functions 6.29 [6] Language Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 255: Alarm, Error, And System Messages

    Alarm, error, and system messages LUI symbol sets Indicators The symbols are displayed in the status bar and the message list. They provide visual information on the current status of your device. The symbols of messages with the highest message level are displayed in the status bar. You will find additional information in the section →...
  • Page 256 Alarm, error, and system messages 7.1 LUI symbol sets Table 7- 3 Configuration indicators Symbols Description PCS7 Namur Configuration error Device configuration is damaged. Configuration warning One or more parameters are set incorrectly. For example: A parameter is outside the min/max limits. Configuration changed The symbol indicates that you have changed parameters but that you have not saved these changes permanently yet.
  • Page 257: Oxymat 7 Message List

    Alarm, error, and system messages 7.2 OXYMAT 7 message list OXYMAT 7 message list Note Message behavior at a restart After a restart, the messages with the messages numbers 22 to 32 remain in the message list. All other previous messages are deleted. Table 7- 7 OXYMAT 7 message list Message...
  • Page 258 Alarm, error, and system messages 7.2 OXYMAT 7 message list Message Cause Remedy Text Maximum temperature exceeded. Safety function Check ambient temperature • Heaters turned off automatically. Ambient temperature too high • Check the other messages includ- • ing the logbook and act accord- One or more heater control loops •...
  • Page 259 Alarm, error, and system messages 7.2 OXYMAT 7 message list Message Cause Remedy Text Power supply 3.3 V outside toler- Electronic fault Disconnect device from power • ance supply. Check plug-in connections be- • tween the power supply unit and the analyzer module for proper fit and correct contacting.
  • Page 260 Alarm, error, and system messages 7.2 OXYMAT 7 message list Message Cause Remedy Text Reference voltage outside toler- Electronic fault Replace analyzer module ance Signal acquisition faulty Electronic fault Replace analyzer module Test signal outside tolerance Electronic fault Replace analyzer module System error Electronic fault Restart the device...
  • Page 261 Alarm, error, and system messages 7.2 OXYMAT 7 message list Message Cause Remedy Text TFTP communication faulty IP address of download host Check IP address of download • • faulty host in PDM dialog "Soft- ware/Download configuration". Path or file name of file to be •...
  • Page 262 Alarm, error, and system messages 7.2 OXYMAT 7 message list Note Message no. 150 Information on parameters that have caused configuration problems can be found in the → [3.01] Maintenance & Diagnostics > Current messages (Page 203) menu. The parameters causing the problems as well as the parameters affected by them are listed so that you can start the corresponding remedial measures.
  • Page 263 Alarm, error, and system messages 7.2 OXYMAT 7 message list Message Cause Remedy Text AutoCal 2 canceled AutoCal could not be executed due to Check and remedy pending errors • a fault. in the list of current messages. Then: Execute AutoCal manually. •...
  • Page 264: Ultramat 7 Message List

    Alarm, error, and system messages 7.3 ULTRAMAT 7 message list ULTRAMAT 7 message list Mes- Cause Remedy sage Text Maximum warming-up Device is operated outside the permit- Check the ambient temperature of the • • time exceeded. ted ambient temperature range analyzer Check if there are additional messag- •...
  • Page 265 Alarm, error, and system messages 7.3 ULTRAMAT 7 message list Mes- Cause Remedy sage Text Maximum temperature Safety function Wait until the device has cooled • • exceeded. Heaters turned down. Ambient temperature too high • off. Then acknowledge the message. •...
  • Page 266 Alarm, error, and system messages 7.3 ULTRAMAT 7 message list Mes- Cause Remedy sage Text 29 to Zero drift MR1 to MR4 Gas lines contaminated Check the setpoint for the zero gas • • outside tolerance. calibration in the menu "[2.08.1.1] Gas cooler defective, ..
  • Page 267 Alarm, error, and system messages 7.3 ULTRAMAT 7 message list Mes- Cause Remedy sage Text Temperature sensor on Electronic fault Replace the analyzer module printed • • AM PCB faulty. circuit board or the analyzer module. Source current faulty. Electronic fault Check the status of the source in •...
  • Page 268 Alarm, error, and system messages 7.3 ULTRAMAT 7 message list Mes- Cause Remedy sage Text Saved user data faulty. Content of user data in parameter Save the work data in the user data • • memory faulty and cannot be restored again Alternatively: transfer a valid parame- •...
  • Page 269: Calomat 7 Message List

    Alarm, error, and system messages 7.4 CALOMAT 7 message list CALOMAT 7 message list Message Cause Remedy Text Maximum warming-up Device is operated outside the permit- Check the ambient temperature of the • • time exceeded ted ambient temperature range analyzer Errors in temperature control Check if there are additional messag-...
  • Page 270 Alarm, error, and system messages 7.4 CALOMAT 7 message list Message Cause Remedy Text 29 to Zero drift MR1 to MR4 Gas line dirty, gas cooler faulty, ... Calibrate zero point and full-scale • • outside tolerance value Gas lines leaking •...
  • Page 271 Alarm, error, and system messages 7.4 CALOMAT 7 message list Message Cause Remedy Text Supply voltage -5 V out- Electronic fault Check the plug-in connections be- • • side tolerance tween the power supply unit and ana- lyzer module If necessary, replace the analyzer •...
  • Page 272 Alarm, error, and system messages 7.4 CALOMAT 7 message list Message Cause Remedy Text Configuration faulty Content of parameter memory faulty The active device configuration is • • and cannot be restored faulty Load the user or factory data in the •...
  • Page 273: Wizard-Based Error Messages

    Alarm, error, and system messages 7.5 Wizard-based error messages Wizard-based error messages Overview The following tables include descriptions of errors which may occur when executing wizard- based processes. The wizard-based procedures especially include calibrations and AutoCal procedures. Note Representation of wizard-based error messages in the logbook Errors which prevent starting the wizard do not generate an entry in the logbook.
  • Page 274 Alarm, error, and system messages 7.5 Wizard-based error messages Error ID Message text (cause/remedy) F1018 "F1018: A calculation error has occurred. Possi- ble causes: An incorrectly configured concentra- tion characteristic curve or an incorrect setpoint." F1020 "F1020: The redetermined zero point deviates too much from the last zero point determined.
  • Page 275 Alarm, error, and system messages 7.5 Wizard-based error messages Error ID Message text (cause/remedy) F1027 "F1027: The component calibration was not suc- cessful because the total calibration or another component calibration has failed. Check the other component calibration or the total calibration.
  • Page 276: Measured Value Status

    Alarm, error, and system messages 7.6 Measured value status Measured value status 7.6.1 Messages Overview The tables below include information that can be displayed for the measured value status by the device. Table 7- 9 Display of measured value status "Good" Measured Cause Effect/remedy...
  • Page 277 Alarm, error, and system messages 7.6 Measured value status Table 7- 10 Display of measured value status "Uncertain" Measured Cause Effect/remedy value qualifier The measured value is uncertain because of a maintenance The measured value is still output, demanded. amended by the symbol "?". (TLV and submenus).
  • Page 278: Symbolic Representation

    Alarm, error, and system messages 7.6 Measured value status 7.6.2 Symbolic representation The following symbols are used to display the measured value status: ● : Measured value status "Good" - no symbolic representation ● : Measured value status "Uncertain" ● : Measured value status "Bad"...
  • Page 279: Appendix

    Our bulletin board, where users and specialists share their knowledge worldwide. Additional Support Please contact your local Siemens representative and offices if you have any questions about the products described in this manual and do not find the right answers.
  • Page 280: Approvals

    Conformity with European directives The manufacturer of the gas analyzers listed below is authorized to provide the respective labels with a CE marking: Figure A-1 SIPROCESS GA700 gas analyzers with CE marking Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 281: Certificate

    (http://www.automation.siemens.com/w1/process-analytics-zertifikate- 4127.htm). References Table A- 1 References 1 - Operating Manuals LUI Title Languages Article numbers SIPROCESS GA700 German (de-DE) A5E31930441 Operating with the local user interface English (en-US) A5E31930478 Operating manual Table A- 2 References 2 - Operating Manuals PDM...
  • Page 282 Appendix A.4 References Table A- 3 References 3 - Operating Instructions Title Languages Article numbers SIPROCESS GA700 German (de-DE) A5E31873438 Rack-mounted device English (en-US) A5E31874006 Operating Instructions SIPROCESS GA700 German (de-DE) A5E31930383 Wall-mounted device English (en-US) A5E31930403 Operating Instructions Table A- 4...
  • Page 283 Croatian (hr-HR) French (fr-FR) A5E35640457 Dutch (nl-NL) Table A- 7 References 6 - Catalogs Title / address Address SIPROCESS GA700 → Catalog AP 01 → Information and Download Center (www.siemens.com/industry/infocenter) Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 284: Modbus Tcp

    Appendix A.5 MODBUS TCP MODBUS TCP A.5.1 MODBUS interface for SIPROCESS GA700 General Note This product includes software developed by the MODBUS Organization, Inc. and its suppliers. MODBUS TCP is an industry standard for linking measuring and control instruments to process control systems.
  • Page 285: Planning/Configuring

    Appendix A.5 MODBUS TCP ① Metal cable gland, e.g. for Ethernet cable Figure A-3 Bottom of wall-mounted device See also Setting communication via MODBUS TCP (Page 248) Setting MODBUS digital inputs (Page 249) A.5.2 Planning/configuring Cyclic data transfer Cyclic data transmission is used to transfer the useful data relevant to the process between the control or automation system and the analyzer.
  • Page 286 Appendix A.5 MODBUS TCP Status byte A status byte is additionally transmitted in synchronism with each measured value. This byte provides information on the quality of the value in the form of a "Status code". The status byte has the following structure: Table A- 8 Coding of status byte/structure Quality...
  • Page 287 Appendix A.5 MODBUS TCP Table A- 10 Measured value status "Uncertain" (MODBUS TCP) Quality byte Cause Effect/remedy 7 6 5 4 3 2 1 0 0 1 1 0 1 0 0 0 104 0x68 The measured value is uncertain because of a The measured value is still maintenance demanded.
  • Page 288: Transfer Of Device Data

    Appendix A.5 MODBUS TCP A.5.3 Transfer of device data A.5.3.1 Device data Transfer from the analyzer to the process control system Table A- 12 Device identification data Object ID Object name / description Category Type Object Coding length 0x00 VendorName Basic STRING 0x0C...
  • Page 289 Appendix A.5 MODBUS TCP Object ID Object name / description Category Type Object Coding length 0x8D Component3_Code Extended UINT8 0x01 Table A-14 MODBUS TCP: Cod- ing of gas components [Object ID 0x81, 0x87, 0x8D, 0x93, 0x99, 0x0000, 0x000C, 0x0018, 0x0024, 0x0030] (Page 298) 0x8E Component3_Name Extended...
  • Page 290 Appendix A.5 MODBUS TCP Object ID Object name / description Category Type Object Coding length 0xA0 Pressure1_UnitCode Extended UINT16 0x02 Table A-16 MODBUS TCP: Cod- ing of process value type [Object ID 0x9F, 0xA1, 0xA3, 0xA5, 0xA7, 0x003C, 0x0049, 0x0054, 0x0060, 0x006C, 0x0078] (Page 299) 0xA1...
  • Page 291 Appendix A.5 MODBUS TCP Object ID Object name / description Category Type Object Coding length 0xA8 Flow1_UnitCode Extended UINT16 0x02 Table A-16 MODBUS TCP: Cod- ing of process value type [Object ID 0x9F, 0xA1, 0xA3, 0xA5, 0xA7, 0x003C, 0x0049, 0x0054, 0x0060, 0x006C, 0x0078] (Page 299) 0xA9...
  • Page 292 Appendix A.5 MODBUS TCP Address Name / description Register type Type Coding 0x0008 Component1_Offset Input / holding FLOAT32 DECIMAL 0x0009 0x000A RESERVED 0x000B RESERVED 0x000C Component2_Code Input / holding UINT8 Table A-16 MODBUS TCP: Coding of process value type [Object ID 0x9F, 0xA1, 0xA3, 0xA5, 0xA7, 0x003C, 0x0049, 0x0054, 0x0060,...
  • Page 293 Appendix A.5 MODBUS TCP Address Name / description Register type Type Coding 0x001A Component3_MeasValue Input / holding FLOAT32 DECIMAL 0x001B 0x001C Component3_Status Input / holding UINT32 Bit-Enum 0x001D 0x001E Component3_Factor Input / holding FLOAT32 DECIMAL 0x001F 0x0020 Component3_Offset Input / holding FLOAT32 DECIMAL 0x0021...
  • Page 294 Appendix A.5 MODBUS TCP Address Name / description Register type Type Coding 0x0031 Component5_UnitCode Input / holding UINT16 Table A-17 MODBUS TCP: Coding of process value units [Object ID 0xA0, 0xA2, 0xA4, 0xA6, 0xA9, 0x003D, 0x004A, 0x0055, 0x0061, 0x006D, 0x0079] (Page 299) 0x0032 Component5_MeasValue...
  • Page 295 Appendix A.5 MODBUS TCP Address Name / description Register type Type Coding 0x0049 Pressure2_UnitCode Input / holding UINT16 Table A-16 MODBUS TCP: Coding of process value type [Object ID 0x9F, 0xA1, 0xA3, 0xA5, 0xA7, 0x003C, 0x0049, 0x0054, 0x0060, 0x006C, 0x0078] (Page 299) 0x004A Pressure2_MeasValue...
  • Page 296 Appendix A.5 MODBUS TCP Address Name / description Register type Type Coding 0x005B 0x005C Temperature1_Offset Input / holding FLOAT32 DECIMAL 0x005D 0x005E RESERVED 0x005F RESERVED 0x0060 Temperature2_Type Input / holding UINT8 Table A-16 MODBUS TCP: Coding of process value type [Object ID 0x9F, 0xA1, 0xA3, 0xA5, 0xA7, 0x003C, 0x0049,...
  • Page 297 Appendix A.5 MODBUS TCP Address Name / description Register type Type Coding 0x006D Flow1_UnitCode Input / holding UINT16 Table A-17 MODBUS TCP: Coding of process value units [Object ID 0xA0, 0xA2, 0xA4, 0xA6, 0xA9, 0x003D, 0x004A, 0x0055, 0x0061, 0x006D, 0x0079] (Page 299) 0x006E Flow1_MeasValue...
  • Page 298: Device Data: Extras

    Appendix A.5 MODBUS TCP Address Name / description Register type Type Coding 0x0083 RESERVED Table A-18 MODBUS TCP: Coding of device states [Object ID 0x0100] (Page 300) 0x0101 DeviceSubState Input / holding UINT16 Table A-19 MODBUS TCP: Coding of device substates [Object ID 0x0101] (Page 300) 0x0102...
  • Page 299 Appendix A.5 MODBUS TCP Values Static Label Description C₂H₆ Ethane C₃H₆ Propylene C₃H₈ Propane C₄H₆ Butadiene C₄H₁₀ n-butane C₆H₁₄ n-hexane Table A- 15 MODBUS TCP: Coding of component units [Object ID 0x83, 0x89, 0x8F, 0x95, 0x9B, 0x0001, 0x000D, 0x0019, 0x0025, 0x0031] Values Static Label Description...
  • Page 300 Appendix A.5 MODBUS TCP Values Static Label Description 1558 mg/l 1561 1563 ml/min 1566 mg/m³ 1995 User-defined Input of a user-defined unit. 1997 No unit Table A- 18 MODBUS TCP: Coding of device states [Object ID 0x0100] Values Static Label Description Device status Standby...
  • Page 301 Appendix A.5 MODBUS TCP Values Static Label 0x0400 Configuration saved 0x0800 Configuration error 0x1000 LUI log-on 0x2000 Remote log-on 0x4000 Measuring protection Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 302 Appendix A.5 MODBUS TCP Operating with the Local User Interface Operating Manual, 06/2017, A5E31930478-05...
  • Page 303: Index

    Index Calibration pool, 126 Calibration pool entry, 126 Calibration pool entry Measuring range, 97, 127, 129 1-point calibration to shift the characteristics offset, 94 Calibrations 1-point span gas calibration, 94, 115 1-point calibration with substitute gas to shift the 1-point zero gas calibration, 94, 115 characteristics offset, 94 1-point span gas calibration, 94, 115 1-point zero gas calibration, 94, 115...
  • Page 304 Index How the OXYMAT 7 works Principle of operation, 22 Date How the ULTRAMAT 7 works Setting, 102 Principle of operation, 25 Daylight saving time Setting, 102 Default gateway, 246 Delivery separate, 32 Identification, 229 Design Industrial safety and health regulation, 15 CALOMAT 7, 27 IP address, 246 ULTRAMAT 7, 24...
  • Page 305 Index Measured value OXYMAT 7 in current unit, 200 Calibrating the pressure sensor, 197 in ppm, 200 Heaters, 190 Measured value status Display, 214 Measured-value format, 98 Measurement block Parameter set, 98, 233 CALOMAT 7, 190 Load, 235 Measuring range Save, 98, 98, 234 leading, 96, 127, 130 Passwords...
  • Page 306 Index Security Automatic log-off, 251 ULTRAMAT 7 PIN, 251 Calibrating the pressure sensor, 198 Service, 279 Installation, 32 Message system, 202 UNDO, 70 Name/unit, 200 User data Physical measuring range, 201 Save, 98 Service menu USER FUNC Enable/disable message system, 202 Functions, 102 Heaters, 190, 190, 190 Name/unit, 200...

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