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IPEmotion User Manual - Gantner Instruments, Inc.

1. Op2 NaN IPEmotion IPETRONIK GmbH amp Co KG 74 139 Working with IPEmotion ABS ACOS AND ANDB ASIN ATAN CEIL COS COSH DIFF EDGE_N EG EDGE P OS EXP lIPEmotion Division of two operands Potentiation of two operands Analysis of two operands for equality Analysis of two operands for inequal ity Analysis of two operands for less Analysis of two operands for less or equal Analysis of two operands for greater Analysis of two operands for greater or equal Absolute value Arcus cosine Logical And operator amp amp Bitwise And operator amp Arcus sinus Arcus tangent Sends the less integer value which is greater than or equal to the value of Op1 Cosine function Cosine Hyperbolicus Op1 t Op1 t 1 DeltaT Detection of negative edges of Op1 Detection of positive edges of Op1 Exponential function IP Z motion Op1 Op2 Op1 Op2 Op1 Op2 Op1 Op2 Op1 lt Op2 Op1 lt Op2 Op1 gt Op2 Op1 gt Op2 ABS Op1 ACOS Op1 Op1 AND Op2 Op1 ANDB Op2 ASIN Op1 ATAN Op1 CEIL Op1 COS Op1 COSH Op1 DIFF Op1 EDGE_NEG Op1 EDGE _POS Op1 EXP Op1 IPETRONIK GmbH amp Co KG Op1 NaN Op2 NaN Op2 0 0 Op1 NaN Op2 NaN Op1 NaN Op2 NaN Op1 NaN Op2 NaN Op1 NaN Op2 NaN Op1 NaN Op2 NaN Op1 NaN Op2 NaN
2. 4 4 Uninstalling IPEmotion The following chapter shows the deinstallation process of PEmotion For removing PEmotion you have two possibilities The option Remove of the IPEmotion installation program 7 The option Add or Remove Programs for PEmotion in the Control Panel With both methods you can remove PEmotion files folders and registry entries from your computer which has been created during the installation deleted separately O Please note that the installed plugins are not uninstalled automatically but have to be Removing IPEmotion with the installation program To do so proceed as follows 1 Click in the menu Start on your computer on Settings and then Control Panel 2 Double click in the Control Panel on Add or Remove Programs 3 Select from the program list the entry IPEmotion and click Change to start the installation wizard Click Next to advance to the Program maintenance screen 4 Program maintenance This screen allows you to modify repair or remove IPEmotion Select Remove and click Next to continue 5 Remove the program This screen indicates that your installation is now ready to remove Click Remove to start the removing process 6 Uninstalling IPEmotion A progress bar is shown during the uninstalling process 7 InstallShiel Wizard Completed This screen is shown after the successful deinstallation Click Finish to exit the installation wizard After removal PEmotion is no longer i
3. IPEmotion Signals Acquisition View Data manager Analysis Scripting Info sage gt OS Add script Import Export Run Start Library Details Script Macro recording Edit Automate your acquisition sequences with the scripting function of IPEmotion PEmotion offers three basic types of automation macro recording in process interface out of process interface Es With the macro recording you can record your actions in the graphical interface and run it later on as a script IPEmotion IPETRONIK GmbH amp Co KG 104 139 Working with IPEmotion P MI OTI O N A With the help of the in process interface you can create and start Visual Basic Scripts VBS and IronPython Scripts PY within IPEmotion You can find further information and a description of the COM interface in the IPEmotionCOM chm Es With the help of the out of process interface you can address and control PEmotion with an external program see chapter 9 You can find further information and a description of the COM interface in the IPEmotionCOM chm 6 7 1 Internal automation interface With the internal model of the PEmotion automation interface in process you have the ability to automate sequences within PEmotion The internal interface addresses to users with basic skills in programming with Visual Basic Scripts With the help of the in process interface you can create and start own Visual Basic Scripts VBS and IronPython Scripts PY within PEmotion The in
4. IPEmotion IPETRONIK GmbH amp Co KG 41 139 a Hz moton 5 6 2 The automatic hardware detection Automatic hardware detection The automatic hardware detection was successful The Following systems have been Found BO001705 Which action do you wank bo run K NN La Automatic configuration and displaying of data EN Manual configuration of signals acquisition and displaying _ Always operate the selected action Deactivate automatic hardware detection at stark OK Cancel The dialog window Automatic hardware detection appears at opening IPEmotion for the first time Select the desired action for your next step and click on OK You have the ability to decide if the selected action should always be taken at opening PEmotion To activate this option click the small box Always operate the selected action Please note that this option is only available if the hardware is already connectea and detected If the dialog window Automatic hardware detection should not be shown again at opening PEmotion click the small box Deactivate automatic hardware detection at start The Automatic hardware detection screen allows you to safely and quickly use PEmotion without previous knowledge It is an introducing help for simply and intuitively operating basic steps You can select one of the following actions Connect hardware and repeat detection Guided and configuration step by step
5. PREV Operand Initial value Examples PREV Channel 1 sends the value of Channel 1 from the previous calculation cycle the result of the first calculation is NoValue PREV Channel 1 10 sends the value of Channel 1 from the previous calculation cycle the result of the first calculation is 10 ROUND Rounds a floating point off to the smaller integer if the floating point rest is less than 0 5 Rounds a floating point up to the greater integer if the floating point rest is greater than or equal to 0 5 Syntax ROUND Operand Examples ROUND 13 53 gt 14 0 ROUND 2 41 gt 2 0 SHL Moves Operator by the number of bit positions defined by Operator2 to the left Syntax Operand1 SHL Operand2 Examples 1 SHL 2 gt 4 IPEmotion IPETRONIK GmbH amp Co KG 83 139 e Hz moton 12 SHL 1 gt 24 SHR Moves Operator1 by the number of bit positions defined by Operator2 to the right Syntax Operand1 SHR Operand2 Examples 1 SHR 2 gt 0 12 SHR 1 gt 6 TESTBIT Analysis if a specific bit is set If the bit defined by Operand2 is set the result is 1 otherwise 0 Syntax TESTBIT Operand1 Operand2 Examples TESTBIT 27 1 gt 1 TESTBIT 27 2 gt 0 TESTMASKS Runs a comparison with a definable bit mask If at least one bit is set in Operand1 as well as in Op erand2 the result is 1 otherwise 0O Syntax TESTMASKS Operand1 Operand2 Examples TESTMASKS 27 6 gt 1
6. All detected data loggers are listed in the Logger selection dialog at starting IPEmotion You have the ability to select those loggers to access To activate or deactivate the desired logger click in the small box of the Selection column The logger selection dialog is displayed by default and can be defined by using the PEmotion Options Select the menu point Plugins within the IPEmotion Options Select IPETRONIK LOG and click on the Settings button Within the Options tab you have the ability to define the Detection and Importing mode IPEmotion IPETRONIK GmbH amp Co KG 40 139 a Hz moton ZS IPEmoation settings IPETRONIK LO Components Options Detection mode Logger with serial number 0000000 e Selection by dialog All loggers Importing mode e Move O Copy General Activate TESTdrive access restriction ial Encoding of the configuration Files Pm Activate or deactivate the mode for detecting the data logger Es Logger with serial number Es Selection by dialog Es All loggers a Activate or deactivate the mode for importing the data from the logger a Move Select Move to copy and delete the data from the logger Es Copy Select Copy to copy the data from the logger Es Activate within the General section the TESTdrive access restriction and or the encoding of the configuration files fe L A Confirm your selection with OK and close the IPEmotion Options dialog with OK
7. Name Typ 2 m 4 z Game a6 T_4 v E 60 00 1370 00 0 00 50 00 5 Hz TS v SG 60 00 1370 00 0 00 50 00 5 Hz T6 Wl lec 60 00 1370 00 0 00 50 00 5 Hz T_out Ei S 60 00 1370 00 20 00 40 00 5 Hz T_p_Lac Wl Ier 60 00 1370 00 0 00 50 00 5 Hz Ta LAC Wl lec 60 00 1370 00 0 00 50 00 S Hz T_CAT Ei ek 60 00 1370 00 0 00 1000 00 S Hz T_in Ae 60 00 1370 00 11 00 30 00 5 Hz T_brakef_FR wi X 60 00 1370 00 20 00 150 00 5 Hz Lie Oo e 2 G gt B IPEmotion user guidance T_brakef_FL ad C 60 00 1370 00 20 00 150 00 5 Hz T_brakef_BR v ts 60 00 1370 00 20 00 150 00 5 Hz signals gt T_brakef_BL ge 60 00 20 00 150 00 56699999 16 P bs 60 00 1370 00 60 00 1370 00 5 Hz 4 gt General Format Scaling Display Thermo Active Name T_brakef_BL Project Description Temperature brake fluid assembly cable 10 Signals Acquisition SR View Click on Save EN to store the made changes and configurations in the current file Check the respective made step of the moon User guide and select the next step Acquisition to continue 7 2 3 Defining storage group s and formula s In the Acquisition main navigation tab all available channels are shown To add a formula to your configuration and to select the channels needed for the acquisition proceed as follows 1 Click on Add calculation JI IPEmotion IPETRONIK GmbH amp Co KG 110 139 Za Practical application examples P am Mi OTI O N 2 IPEmotion You can find
8. Show hide subnodes Die Select previous next node Shift f Add previous next node to selection Ctrl A Select all Ctrl move node with mouse Cut node and add to destination node Shift move node with mouse Cut node and add above destination node E CR CR CR CR CR Alt Gr move node with mouse Cut node and add below destination node 5 Page Up Page Down Select first last node List of loaded measurement files E De Select previous next node shift Add previous next node to selection Ctrl A Select all a Page Up Page Down Select first last node List of pages IPEmotion IPETRONIK GmbH amp Co KG 102 139 soning won mene Hz moton Die Select previous next node Shift Add previous next node to selection Ctrl A Select all Page Up Page Down Select first last node Extended measurement window e Die Select previous next node yt chart a Space bar Change the active measuring cursor Move the measuring cursor on the active graph by exactly one value je Move the active measuring cursor by 0 5 of the x axis range to the right left Home End Move the active measuring cursor to the point which is the closest to the up per lower limit of the x axis range 4 Zoom in zoom out the x axis Shift Mode Select E Shift Zoom in zoom out all y axes Ctrl Zoom in zoom out the active y axis 7 Shift Move the x axis by one axis
9. Isotropic pressure enthalpy pattern at con stant temperature The displaying properties can be defined and saved with the configuration dialog Add channels Every log p h diagram supports any number of signals whereas every signal includes 2 channels en thalpy and pressure channel which have to be defined Channels can only be added to the chart one by one An acquisition can also be started if the diagram contains an uneven number of channels but the incomplete signal is not displayed in the diagram The first added channel is interpreted as en thalpy channel the second as pressure channel if the channel no units If the channels can be identi fied as pressure or enthalpy channel they are added to the acquisition point A new signal is only generated if all available signals are completely configured pressure and enthalpy channel available A channel can be used several times in a diagram but the channel combination can only be created once in a diagram There are the following possibilities to assign channels Es in the View tab La Drag the channel into the visual element a Open the context menu with the right mouse button and select Add channel Open the context menu with the right mouse button and select Copy Ctrl C select the visual element Paste Ctrl V IPEmotion IPETRONIK GmbH amp Co KG 129 139 ssn P moton 8 1 3 Log p h diagram offline Analysis IPEmotion V01 09 00 offers you the ab
10. MIN Operand Examples MIN Channel 1 sends the smallest of all values of Channel 1 over all valid values MINOR Sends the smaller value of Operand1 and Operandz2 IPEmotion IPETRONIK GmbH amp Co KG 81 139 e Hz moton Syntax MINOR Operand1 Operand2 Examples MINOR 6 23 1 9 gt 1 9 MINOR 2 41 4 1 gt 4 1 NOTB Corresponds to the bitwise Not operator All bits which are set in the operand are not set in the result all other bits are set in the result Syntax NOTB Operand1 Examples NOTB 27 gt 4294967268 NOTB 12 gt 4294967283 OR Corresponds to the logical Or operator If at least one partial condition is met value 1 is sent other wise Q Syntax Operand1 OR Operand2 Examples 2 4 gt 1 2 OR 21 3 lt 34 1 SE 2 4 lt 1 2 OR 21 3 lt 34 1 gt 1 2 4 gt 1 2 OR 21 3 34 1 gt 1 2 4 lt 1 2 OR 21 3 34 1 gt 0 ORB Corresponds to the bitwise Or operator All bits which are set in at least one operand are also set in the result all other bits result in 0 Syntax Operand1 ORB Operand2 IPEmotion IPETRONIK GmbH amp Co KG 82 139 e Hz moton Examples 27 ORB 12 gt 31 27 ORB 13 gt 31 27 ORB 8 gt 27 PREV Sends the previous operator value The result of the first calculation is NoValue if the optional initial value is not defined If the initial value is sent it is used as result of the first calculation Syntax PREV Operand
11. Op1 NaN Op2 NaN Op1 NaN Op1 NaN Op1 NaN Op2 NaN Op1 NaN Op2 NaN Op1 NaN Op1 NaN Op1 NaN Op1 NaN Op1 NaN Op1 NaN Op1 NaN Op1 NaN Op1 NaN 75 139 Working with IPEmotion FLOOR INT INT_UP LIN LN LOG MAJOR MAX MEAN MIN MINOR MOD NEG NOT NOTB OR ORB PREV ROUND lIPEmotion Sends the greatest integer value which is less than or equal to the value of Op1 Ramification Op1 t Op1 t 1 2 DeltaT Opi DeltaT Linearization with nodes Logarithm naturalis Logarithm function Sends the greater value of both oper ands Maximum of all valid values Average of all valid values At ip1 gt 0 happens an averaging of the last p1 values If lp1 is not defined or O all valid values are averaged Minimum of all valid values Sends the less value of both oper ands Floating point rest Negation Check value for O Operator Op1 lt gt 0 0 gt 0 0 Op1 0 0 gt 1 0 Bitwise Not operator Logical Or operator Bitwise Or operator Use of previous value Rounds the value of Op1 to the next P motion FLOOR Op1 IF Op1 Op2 Op3 INT Op1 INT UP Op1 LIN Op1 Ip1 Ip2 lp3 Io LN Op1 LOG Op MAJOR Op1 Op2 MAX Op1 MEAN Op1 Ip1 MIN Op1 MINOR Op1 Op2 Op1 MOD Op2 NEG Op1 NOT Op1 NOTB Op1 Op1 OR O
12. TIA Move the active measuring cursor by 0 5 of the x axis range to the right left Ho me End Move the active measuring cursor to the point which is the closest to the upper lower limit of the x axis range Tab Change the active measuring cursor Charts Zoom mode mouse Zoom in Zoom out the x axis Shift Mode Select Shift Zoom in Zoom out all y axes Ctrl Zoom in Zoom out the active y axis Shift Move the x axis by one axis scaling to the right left Ctrl Move the x axis by the total length to the right left Shift Die Move all y axes by one axis scaling up down Ctrl Die Move the active y axis by one axis scaling up down Ctrl Alt Mode Stretch Compress Video display Progress slide control lais Change between the images within the video F A Move back forth within the video Home End Change between the first last image 7 3 Defining a pressure channel by using the scaling calculator The following example shows how to use the scaling calculator for configuring a channel of a M SENS device for a pressure acquisition The pressure module is a PMP 1400 of the company Druck with the following characteristics 16 bar a 0 5 V Output 9 30 V DC excitation The complete configuration of a pressure channel by using the scaling calculator is defined within the Signals main navigation tab 1 Select in the left tree view the M SENS 8 module You can find the General tab
13. The import functionality in PEmotion offers you the ability to import one or several signals and to as sign a sampling rate The proceeding configuration takes place after the import in PEmotion The Synchronize button allows to adjust the current description file with a newer version of this file Activate the Show differences option to display potential deviations of both files IPETRONIK GmbH amp Co KG 64 139 Working with IPEmotion P MI OTI O N SZREASEXSRBX Bec ws Project Signals Acquisition View Data ma a Jo dd system Add components Import Export Adjustment CA Signal import Fom DET Ale YDS 23 02 19939 A Signal import Fom AzL file 4 Ze 50000000 Diagnostics CAN D2 k zA Diagnostic import Fom IDF file Ss DIN Sa Dout UDS Pr USB Signal import Fom XML file 2 ETH comi Synchronize ON come CANdb A2L UDS Using the mport function in IPEmotion you have the ability to read description files for the configuration of an acquisition By doing so control unit description files for example are imported with the A2L format and vehicle data like air conditioning or seat adjusting with the CANdb format To use the Import function in PEmotion proceed as follows A Using the Signals main navigation tab select the hardware with the desired port e g CAN LIN FlexRay Select the input and click on the button Import d Select importing from the
14. amp Co KG 131 139 ssn P moton Project Signals Acquisition View Data manager Analysis m ERR i ek Gs Add calculation Add storage Add limit Add FFT Add PID SEELEN Details ne Dar EE Start storing group Walle controller Elements Control View Name Active Control value Le D Zem contralle il rox Calculations Jl Formulas Storage E Storage gr al tE Monitoring Wi Limit values a Wi Analysis Gy FFTs a Control E PIC controller General Operating Inputs outputs Parameter CO Bn Pi CH rs OF OE OO rz Ta Function ge Active Mame PID controller 1 Description Select the PID controller function and expand your configuration by a controller with the Add PID controller button or the context menu of the right mouse button Afterwards all configured controllers are listed Each controller can be defined with the grid columns or the tabs Further grid columns are available with the Column Chooser function A The PID controller offers a start stop and hold trigger see Operating tab which can be activated deactivated independently of each other and defined with any formula of the IPETRONIK formula editor A Use the Inputs outputs tab to define the control value actual and nominal value The values calculated by the PID controller are output on an IPEmotion channel This control value channel has to have an output functionality and must be a numerical value channel Es K
15. kml File type KML Show system Files Cancel Es Open the file with Google Earth All coordinates with latitude longitude and altitude are shown as well as additional positioning parameters or information according to your configuration in PEmotion i e X R Lee Longitude 8 20 Latitude 48 78 Altitude 189 50 Altitude_GPS 189 50 GPS Status 1 00 GPS Speed n def km h GPS Satellites 4 00 GPS Horizontal Precision 4 50 UTC Day 23 00 UTC Month 3 00 UTC Year 11 00 UTC Hour 16 00 UTC Minute 10 00 UTC Second 59 00 2011 03 237T03 10 58 01 00 d 3025 0 Se ET Zi d 24 W we E _ d m d D a The Analysis main navigation tab allows to show the data within a diagram and to visually analyze data IPEmotion IPETRONIK GmbH amp Co KG 99 139 sons enue Hz morton TESTdrive video data TESTdrive is used as measurement application by IPETRONIK for in house data logger systems M LOG S LOG FLEETIog PEmotion offers you the ability to store triggered video data on the data logger and to subsequently analyze data in PEmotion A Select the Data manager or Analysis main navigation tab Es Open the desired data set in TESTdrive Video Format with the Load ks button File name PrefixTestv0010104 04T File type Show system Files Cancel A The Analysis main navigation tab allows to play and visu ally analyze the video sequences within the Video display o vc_
16. regarding our product manuals contact us under support ipemotion com When commenting on our products please include the following information Version number Select About from the menu to display the version number Name of the guide Es Page number or section title A Brief description of the content e g inaccurate instructions grammatical errors or information that require clarification Es Any suggestions for a general documentation improvement IPEmotion IPETRONIK GmbH amp Co KG 13 139 sve P moton 3 Introduction To get started please read this document carefully to get to know the functions and special features of PEmotion In addition to acquiring data from hardware modules using IPEmotion you can initialize program and configure various hardware measuring modules IPEmotion is software for configuring displaying measuring and storing acquisition data After acquiring and storing data using PEmotion you can manipulate analyze and generate reports for documentation purposes on the basis of the recorded data For more information about the functionality and the known restrictions please consult the Release Notes of your PEmotion software We are looking forward to your feedback at support ipemotion com 3 1 IPEmotion editions IPEmotion is available in different editions The following chapter shows an overview with information about all editions and their functionality You can find out
17. validate data View and correct channels during a running acquisi tion in the same SW user interface Integrated creation of support files for quick assistance only DAT A A A Scaling calculator with graphical assistance Import description files for configuring DBC Ad2L etc Load data with other formats Import Import signal database MPC format Automating sequences S OO oO oo oO oO oo oO 8s gs S OO oO oo oO oo oO o oO GO e oO oO oO oo 8 000 Bs 8s oO e xxx x GO oO o Creation of runtime IPEmotion IPETRONIK GmbH amp Co KG 15 139 n P moton versions Service contract obligation x x K IPEmotion IPETRONIK GmbH amp Co KG 16 139 EH Setting up and removing P ges Mi OTI O N 4 Setting up and removing 4 1 System requirements The minimum hardware and software requirements for the application of IPEmotion are outlined below 4 1 1 Hardware PC with 1 GHz Pentium processor 1 GB RAM Hard disk with a minimum of 100 MB free disk space B Graphics card with VGA screen and a resolution of minimum 1 024 x 768 USB port for the installation from the USB flash drive CD ROM drive for the installation from the product CD 4 1 2 Platforms The software IPEmotion can be run under the following operating system Es Windows XP Service Pack 2 or higher 32 Bit only Windows Vista 32 Bit and 64 Bit Windows 7 32
18. 7 Selection X Selection Al IN Formulas 48 2 Filing Description Name Storing rate Sampling rate Storage group 1 2 az gt 56199999_3 gt 56199999_2 J IPEmotion user guidance Acquisition 7 General Saving Storage Directory C Dokumente und Einstellungen zw Eigene Dateien IPETRONIK IPEmotion StorageData Project f z i Format IPEmotion v Signals Prefix Acquisition ER View The step Acquisition is then defined as completely done and marked with a green symbol Select the next step View to continue In the appearing View window create pages screens and check the field Create screen page s Select the desired visual element and check the field Select type of visual element Add your channels and check the field Add channels For adding the channels you have the ability to use the Drag amp Drop function For detailed descriptions please consult chapter 6 4 View Kl CR WH ReR IPEmotion Project Signals Acquisition e o o pp R Fr CHUTE e S o Properties Selection Start displaying Start storing X age 1 xX Undo grid neces sh Control Scree ges Layout Edit TER E mes E eme z SE Pages Channels Display i Name 80 DO 56199999 1 gt 56199999 3 SS 56199999 4 40 40 20 20 0 0 204 20 40 40 The step View is then defined as completely done and marked with a green symbol IPEmotion IPETRONIK GmbH amp Co KG 45 139 a Hz moton Confirm the appearing I PEmoti
19. Add components Define your channels and check the field Configure channels For detailed descriptions please consult chapter 6 2 Signals Zee Ee E e EI CG L i 7 IPEmotion Project Signals Acquisition Se A t O x ZE E Add system Add components Configuration X roperties i Initialize A Properties Details View 56199999 J IPEmotion user guidance Signals Project Signals SR Acquisition SR view 56199999_3 100 000 100 000 56199999_4 100 000 100 000 General Format Scaling Display Offset Sensor Filter Calibration Active Name 56199999_2 Description Analog acquisition input for tension power E Name Active Unit Phys Min Phys Max Sensor Min 100 000 100 000 100 Sampling rate The step Signals is then defined as completely done and marked with a green symbol IPEmotion IPETRONIK GmbH amp Co KG 44 139 a P moton Select the next step Acquisition to continue In the appearing Acquisition window add a storage group and check the field Create storage group s Select the desired channels and check the field Selection of channels to be saved For detailed descriptions please consult chapter 6 3 Acquisition Kl QEERER BOOB IPEmotion Project Signals Acquisition View i amp o x E Delete Add calculation Add storage Steet Details Start storing group Elements Control Setup Available channels Included channels 4 Lil Calculations
20. Baden Baden is an individually liable society registry court Mannheim HRB No 202089 Management Erich Rudolf Andreas Wocke Technical support and product information You are a customer with an IPEmotion service contract E Please find the free hotline number in your valid service contract You are a customer without an IPEmotion service contract A Send us your inquiry to support ipemotion com 2 5 Product licensing key U IPEmotion is a copy protected software It uses a copy protection in the form of a license To be able to use IPEmotion you need a valid license key If no valid license key is available please contact IPETRONIK GmbH amp Co KG to purchase a license 2 6 Related documentations 2 6 1 IPEmotion COM The documentation IPEmotionCOM chm provides you with a description and useful information related to the COM interface in IPEmotion This documentation is stored in the following standard directory C Programs IPETRONIK IPEmotion Vxx xx xx Help 2 6 2 Hardware The documentation for each installed plugin is stored in the respective program folder This documentation is created by each producer on one s own responsibility IPEmotion IPETRONIK GmbH amp Co KG 12 139 sens nas Hz moton 2 Documentation feedback At IPETRONIK the technical publications team strives to produce documentations of the highest quality and values your feedback as a reader and user If you have any comments or suggestions
21. Bit and 64 Bit 4 1 3 Software The following software will be installed a Microsoft NET 3 5 Framework incl Language packages German and French Microsoft MSXML 4 0 Microsoft Visual C 2005 Redistributable IPEmotion IPETRONIK GmbH amp Co KG 17 139 a IER Setting up and removing a Mi OTI O N 4 2 Installing IPEmotion The following chapter guides you through the installation process of PEmotion PEmotion needs administrator rights during the installation Working with PEmotion requires that you need at least limited user s or default user s rights Vista For running PEmotion without administrator rights and with Windows 7 contact your sys tem administrator Please find basic information about configuring the User Account Con trol in the following links htto en wikipedia org wiki User_ Account Control http technet microsoft com en us library dd835546 WS 10 aspx The installation of PEmotion is based on an installation wizard that guides you through the setup process step by step You can start the installation wizard from the USB flash drive the product CD or if you have downloaded the setup program from the setup file itself To install the PEmotion software 1 Start the installation wizard from the USB flash drive the product CD or from the setup file Es USB flash drive Connect the USB flash drive to the USB port of your computer and follow the instructions of the installatio
22. Demo PS Video WAGO PROFIBUS HEM Quantum Service Yokogawa WT Series E H_LPG_CNG Version 01 01 00 14897 05 25 00 18152 01 00 00 11626 01 04 00 17116 01 00 00 6926 01 02 00 11571 01 00 00 12602 01 00 00 13386 01 00 00 13192 01 00 00 14734 01 00 00 7376 01 00 00 15122 00 00 00 0000 P motion Description Vd IFETRONIK Ethernet devices IPETRONIK Data logger M LOG 5 LOG F BECKHOFF Bus Coupler CAN Acquisition with IPETRONIE CAN Ger Generation of demo signals Serial interface to GPS mouse Synchronic recording of video data For ca WOO Bus coupler PROFIBUS connector as master or slave Universelles Messdatenerfassungssystem Seriele 4nbindungen F r die Aufr sthalle Power measuring device Modbus interface for Endress Hauser IPETI IFETI IFETI IFETI IFETI IFETI IFETI DEET IFETI IFETI IFETI IFETI TRETI d Download Cancel Confirm your selection and close the PEmotion Options dialog with OK 10 1 Plugln Designer The plugin concept is based on the Open Source principle i e you have the ability to develop and exchange an own plugin by using the free English software PlugIn Designer Important plugin processes are certified by IPETRONIK With this certification the plugin is integrated into the standard distributions and support and maintenance For developing a plugin I PEmotion offers you this PluglIn Designer which is stored in the following directory C Programs
23. Operand1 XOR Operand2 IPEmotion IPETRONIK GmbH amp Co KG 85 139 e Hz moton Examples 2 4 gt 1 2 XOR 21 3 lt 34 1 gt 0 2 4 lt 1 2 XOR 21 3 lt 34 1 sz 2 4 gt 1 2 XOR 21 3 34 1 sz 2 4 lt 1 2 XOR 21 3 34 1 gt 0 XORB Corresponds to the bitwise Exclusive Or operator All bits which are set in both operands are also set in the result all other bits result in O Syntax Operand1 XORB Operand2 Examples 27 XORB 12 gt 23 27 XORB 13 gt 22 27 XORB 8 gt 19 6 3 3 Limit value monitoring The limit value monitoring allows you to control channels within IPEmotion You can define thresholds for each channel which initiate a user defined action at e g exceeding the upper or lower limit value These actions e g showing text messages can also be configured You have also the ability to control the limit values by using the visual elements At exceeding the upper or lower limit value e g the color of the bar display changes according the pre set definition I PEmotion with the versions PEaddon IPEmotion LOG V03 21 and TESTdrive V03 21 offers the ability to set upper and lower limits as formula The formula must have a boolean result A limit value can be defined as follows Constant Formula with boolean result TESTdrive documents every limit value violation in the log file as well as in the measuring status file Documentation in log file The limit value violation is documented as w
24. SAVINGS EVEN IF IPETRONIK WAS ADVISED OF THE POSSIBILITY OF SUCH DAMAGES FURTHERMORE IPETRONIK S LIABILITY WHETHER IN CONTRACT TORT OR OTHERWISE ARISING OUT OF OR CONNECTED WITH THIS AGREEMENT OR THE LICENSED SOFTWARE OR DOCUMENTATION SHALL IN NO CASE EXCEED THE PAYMENTS RECEIVED BY IPETRONIK FROM LICENSEE FOR THE LICENSED SOFTWARE AND DOCUMENTATION EXCEPT IN CONNECTION WITH ITS OBLIGATIONS UNDER ARTICLE 5 i IN NO EVENT SHALL LICENSEE BE LIABLE FOR SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES INCLUDING WITHOUT LIMITATION LOST PROFITS LOST DATA OR LOST SAVINGS EVEN IF LICENSEE WAS ADVISED OF THE POSSIBILITY OF SUCH DAMAGES AND li LICENSEE S LIABILITY WHETHER IN CONTRACT TORT OR OTHERWISE ARISING OUT OF OR CONNECTED WITH THIS AGREEMENT OR THE LICENSED SOFTWARE OR DOCUMENTATION SHALL IN NO CASE EXCEED THE PAYMENTS OWED TO LICENSOR FOR THE LICENSED SOFTWARE AND DOCUMENTATION IPETRONIK GmbH amp Co KG 9 139 e H zwMenon 7 Indemnification Obligations of LICENSEE a LICENSEE shall defend indemnify and hold IPETRONIK harmless from any claims losses expenses fees including attorneys fees costs or damages arising in connection with a MODIFICATION or LICENSEE S unauthorized use of the Licensed Software or Documentation 8 Merger Clause a LICENSEE agrees that this Software License Agreement is the complete and exclusive agreement between LICENSEE and IPETRONIK governing the SOFTWARE This
25. ccecccccseeeeeeeeeeeeeseeeeeseeeeeeeeeeeeeesaeaeeesseaeeeesaeeeeesaeeseeseeeeessaeeeeeeas 126 PRU CHM ate ee ELE 127 8 1 2 Log p h diagram Online View 128 LISS thelog ACN UAT seraettersirsaiserarsnmiacrsnesicmrn toate nachasmeniata E O ache ta ei aed ur seh OA ANARIN REE ORS E 128 A elle Rei We 129 8 1 3 Log p h diagram offline Analyse 130 oake pelali E lt vas iws cant EE 130 SOFAS A RENE 130 ESS 0D ACL CUMING ON NEE 131 IO EE 131 oal GR enee EE EN BN RE ere EE EN 9AA Funcion EE ee 133 DREEMEN 134 H External IPEmotion automation interface cccssseeeeeeeeees 136 9 1 Advices for the IPEMOtion editions cccccccecccecseeeeeeseeeeeeseeeeeeeeaeeeeeseeeeeesaaeeeeeaeeeeeesseneeeeas 136 9 2 Creating runtime versionS ss nnsssnneeserneenrnestrrrrntrrsrrrrnrnrrrstrrtnrnrrrsnrrenrntrnnrrrnnnrrnnn reenen reen 137 10 IPEMOUON 8 71 e Un seoor 138 10 1 Glen E Ren EE 139 IPEmotion IPETRONIK GmbH amp Co KG 5 139 spon P moton 1 Important information Please follow these instructions before and during the use and application of any IPETRONIK product 1 1 Liability Warranty Copyright License agreement 1 1 1 Limitation of liability Any liability of IPETRONIK its representatives agents and the like especially with regard to personal injury or damage to property of any kind shall be excluded within the legally admissible framework as far as the instructions and warnings as mention
26. changing font color and a colored scale Analog display Limit violations are displayed by using a changing font color and a colored scale 6 4 View G OX Be wh Oeak IFEmotion Signals Acquisition View Data manager Analysis Info SE OM CR NL Start displaying Stark storing Add page SE Fix y t chart selection VIEW e Control Screen pages Layout Elements Mame Current value Fages Channels Display 56199999_2 The View main navigation tab offers you the ability to visualize channels with different visual elements e g progress bar analog display etc for momentary values diagram for a chronological sequence 6 4 1 Using the visual elements A precondition for using the visual elements is the availability of channels in your configuration To do so select in the Signals main navigation tab the hardware to be used the system and the connected components consult chapter 6 2 for detailed information The following section shows you examples based on the channels of the simulation mode With many defined channels it can become confusing to simplify the channels display Multiple screen pages can be defined in PEmotion which can be toggled The Display of all channels screen page is always available It shows all momentary values of all channels from the start of acquisition i Always all available channels of all active hardware systems are shown To display the desired channels and the
27. complete configuration and use of acquisition devices in IPEmotion the following three main components are available Es C DLL for hardware access Acquisition interface A NET assembly for the configuration Configuration interface 6 Device description files in XML format The device description files are divided as follows A Name IMD IPEMOTION Plugin Description IMT IPEmotion Plugin Templates A IMT IPEmotion User Interface Templates Depending on the complexity of the used devices and depending on the connection not all components are always necessary A NET assembly for instance is only needed if a description of the parameter and their dependencies cannot completely be defined by using the IPEmotion description files A plugin is installed with the PEmotion setup as MSI files But it can also be installed at any time by using an own setup program IPEmotion detects every installed plugin at start To select the desired systems use the IPEmotion user interface and the Options Plugins function i Please note that only activated hardware systems can be configured in PEmotion IPEmotion IPETRONIK GmbH amp Co KG 138 139 IPEmotion Plugin ES PEmotion options Frequently used Basic settings Appearance Data manager Analysis Directories Units Hotkey Plugins E W E m m L m E m m E Ae eB Ll mE Ee 8 Kl m 4 Bie Epi IPETRONIK Mx IPETRONIK LO BECEHOFF CAK Acquisitian
28. context menu to open the configu ration dialog You can now define for instance the following settings L You can find the Status option within the channel view Select the desired status from the following standard modes Please note that these three status are always available and cannot be deleted K F Configuration LED E Invalid No value range can be shown if the channel sends a NoValue Use as default General Use caption L Name Visual element Es Off This predefined status has the value Layout range channel minimum to 0 a On This predefined status has the value Vertical Adjustment Horizontal LX Automatic range greater than 0 to channel maximum Number stross Show channel name The Plus button allows you to add another idiki a status which has to have a valid upper limit eu E A Max The Minus button can be used for deleting Weem a selected status The status are sorted in ascend Oce i boai visualization ing order according to the Max limit Image Lei Marc ZC The Visualization option defines if the status is Ge connected with a color or an image The following color codes are defined for the three standard status Invalid Grey Off Olive On Yellow The following image formats are currently supported BMP JPG JPEG GIF DON TIF TIFF EMF Action The Action visual element offers you the ability to run scripts or programs per keystroke You can l
29. data 6 Click in the Acquisition menu on the Start storing button to record the acquisition data IPEmotion IPETRONIK GmbH amp Co KG 52 139 Working with IPEmotion P Mi OTI O N 6 Working with IPEmotion The following chapter shows how to use the software I PEmotion for configuring the hardware modules and acquiring data as well as managing and analyzing the acquired data 6 1 Project ao ES tek O06 Fe a OF Signals Acquisition Vi d A H AUTO SE ac Aubomatic User guidance generation Configuration Name Value Serial number Manufacturer ID Project name Project manager name E Mail address project manager User E Mail address user User login ZIN Description The increasing number of units in operation and the ever increasing amount of data being captured requires an ability which offers you a simple and flexible solution IPEmotion provides a method which guarantees the simple and intuitive management of all acquired data This concept is based on the definition of relevant and significant parameters and their relationship to the Project settings which are saved in an acquisition data file IPEmotion offers you the ability to create user defined projects These projects contain general parameters needed to define fundamental information for an acquisition The project settings allow a clear structured view and management of road tests and multiple data acquisitions Based on these user defi
30. desired file e g CANdb A2L m UDS The dialog window Open file will be initialized Es Select from the dialog window Open file the desired description file dbc ldf a2I xml with the channels to be imported If the description file includes several protocols please select the desired one A Using the Open button the description file will be imported and all included channels are listed in the left overview of the dialog window CANdb import A2L import UDS import A Select the desired channels or click Select all Confirm the selected signals using the OK button Following the progress bar the imported channels are listed in IPEmotion DAQ lists The A2L import dialog offers you the ability to import protocols including DAQ lists e g CCP XCP You can assign preferred sampling rates to your signals Please note that the selection of the sam pling rate and the corresponding DAQ list is subjected to the following conditions and definitions A The signal is assigned to the corresponding DAQ list depending on the selected sampling rate whereas time synchronized DAQ lists are defined with a higher priority than angular synchronized DAQ lists IPEmotion IPETRONIK GmbH amp Co KG 65 139 e H zwMenon 5 If no DAQ list with the desired sampling rate is available a DAQ list with higher sampling rate is used If the selected sampling rate is higher than all offered sampling rates of the available DAQ lists the fast
31. names button allows to switch between the name of the field command and its content DATETIMEQ 4 13 8 2011 1 3837 PM 5 3 2 View The View Dr function includes the following points Message window Status window PC status window H A Storage status window a A Output window EJ as well as the commands Reset T A Reset templates Bk Reset the templates of the View and Analysis main navigation tabs 5 3 3 Using the options With the Options entry you have the ability to edit user defined settings You can define the following options e Frequently used Basic settings B Appearance 6 Data manager IPEmotion IPETRONIK GmbH amp Co KG 31 139 a P moton Es Analysis A Directories A Units A Hotkey A Plugins The following section offers you a detailed overview over the available setting options Frequently used Activate or deactivate Start with the latest configuration and define the settings for the automatic hardware detection Activate or deactivate the automatic hardware detection at start of IPEmotion and select a possible standard command after successful detection Es Guided configuration A Automatic configuration A Manual configuration E IPEmotion options Frequently used Basic settings Start with the latest configuration L CC GE Automatic hardware detection at start Appearance Data manager Standard command after successful detection Guided configurat
32. scaling to the right left Ctrl 4 4 Move the x axis by the total length to the right left E shift Tue Move all y axes by one axis scaling up down Ctrl Die Move the active y axis by one axis scaling up down Ctrl Alt Mode Stretch Compress xy chart e Space bar Change the active measuring cursor Move the measuring cursor on the active graph by exactly one value Je Move the active measuring cursor by 0 5 of the time channel range back forth IPEmotion IPETRONIK GmbH amp Co KG 103 139 Working with IPEmotion P MI OTI O N Es Home End Move the active measuring cursor to the first last point A Zoom in zoom out the x axis A Alt Zoom in zoom out the active x axis A Shift Mode Select A Shift Zoom in zoom out all y axes A Ctrl Zoom in zoom out the active y axis Es Shift Move the x axis by one axis scaling to the right left A Ctrl Move the x axis by one axis scaling to the right left A Shift Ze Move all y axes by one axis scaling up down Es Ctrl Ze Move the active y axis by one axis scaling up down Es Ctrl Alt Mode Stretch Compress Video display A lt Move the slider to the next previous position Es Home Ende Move the slider to the start end position Log p h diagram Es lt Move the slider to the next previous position Es Home Ende Move the slider to the start end position 6 7 Scripting A a 8 ae On On
33. selected system on the basis of the data At using the hardware initialization the devices are switched into the configuration mode and acquisition mode The data is shown in the overview At manually adding the connected IPETRONIK CAN devices the CAN ID starts at 10 by default and the serial number is set to 99999 At acquiring data by using an ETHERNET cable and a data logger that was previously configured with the IPEconf 4 software the following error message may appear The logger configuration was created with IPEconf 4 and cannot be read A logger with 2 CAN interfaces is set To being able to use the corresponding data logger in IPEmotion you need to download a default configuration to the data logger To do so proceed as follows a Click on the New a button to create a new configuration Select the data logger eer to the connected hardware by using the Add system o and Add components buttons A Configure the data logger A Select the data logger in the system view and assign the Front number within the Extended tab The front number consists of the last 4 5 digits 7 Activate for instance a DIN channel IPEmotion IPETRONIK GmbH amp Co KG 56 139 Working with IPEmotion P MI OTI O N s Add a new storage group to the local storage groups and add the activated channel Click on the Initialize button to update the connected hardware with the new configuration Click on the Detect K butt
34. the General tab in the configuration dialog window Define any name for the formula in the Name field In the Description field you have the ability to edit additional information Repeat the steps 1 and 2 to add another formula to the calculations In our example the following two formulas are defined es T_Diff_LAC temperature for preload air cooler L T_brakef_B_ medium temperature average for brake fluid in the back With the Formula tab you can define a formula for the calculation by using the f x button For selecting the contained channels and operators you have the following two possibilities Double click on the corresponding channels and operator B Drag the corresponding channel and operator into the upper window of the formula editor by using the Drag amp Drop function Select in the Formula editor dialog window the first channel than the operator and finally the second channel For calculating the temperature difference of the channels Ip LAC and T_a_LAC use the following formula PR Formula editor Channel Description on Descr wl Descrip Analog thermocouple ac Ending of Analog thermocouple ac Addition Analog thermocouple ac Subtraction Analog thermocouple ac Multiplica Analog thermocouple ac 3 Division OK Cancel lt _ _ _ For calculating the temperature average of the channels T_brakef_BR and T_brakef_BL use the following formula RB Formula editor Chann
35. to use the features for configuring devices acquire data manage manipulate and analyze the acquired data Please read the manual PEmotion carefully to get to know the software and learn more about the functions and special features of PEmotion before using the product This manual also contains information for installing and removing the software The main navigation point nfo allows you an easy and quick access to the IPEmotion software While working with PEmotion you can reference to this manual at any time via the ag and B buttons 2 2 Version 2 2 1 Manual IPEmotion This manual has the version number 02 00 2 2 2 IPEmotion The descriptions in this documentation refer to the current release of PEmotion with the version number 02 00 2 3 Legend of the used icons This icon indicates a useful tip that facilitates the application of the software Information This icon indicates additional information for a better understanding Attention This icon indicates important information to avoid potential error messages IPEmotion IPETRONIK GmbH amp Co KG 11 139 a General information Mi OTI O N 2 4 Support Headquarter IPETRONIK GmbH amp Co KG Im Rollfeld 28 76532 Baden Baden Germany Tel 49 72 21 99 22 0 Fax 49 72 21 99 22 100 info ipetronik com www ipetronik com Limited commercial partnership with its head office in Baden Baden registry court HRA No 201313 IPETRONIK Verwaltungs GmbH
36. values projectData xml by using a database without influencing or changing the project definition projectPar xml The parameter Name and Key can be configured and defined by using the files projectPar xml and projectData xml These configuration files for the project settings can be found in the following user directory Windows XP C Documents and Settings zw Application data IPETRONIK IPEmotion Vxx xx ProjectT emplate Windows T C Users All Users IPETRONIK IPEmotion Vxx xx xx ProjectTemplate 6 2 Signals dE at os wv 4 ane BOO L x IPEmotion Signals Acquisition View Info ZE E S Add system Add components Y Y Y Y IPETRONIK CAN Initialize Start displaying Configuration gt CH E lt bd Name Unit PhysMin PhysMax Sensor Mim Sensor Max Sampling rate 2 gt 56199999 1 56199999 2 56199999 3 56199999 4 V 100 000 100 000 100 100 1 Hz V 100 000 100 000 100 100 1 Hz V 100 000 100 000 100 100 1 Hz V 100 000 100 000 100 100 1 Hz w 56199999 OOO Ne Systems Channels General CAN hardware Options Active Name IPETRONIK 1 Description System for CAN acquisition modules Configuration dialogs LI System status Click on the Add system button to select the active hardware platform This concept allows the support of any hardware also from third parties Actual plugins are IPETRONIK CAN IPETRONIK LOG and CAN The available hardware systems of the signals main na
37. 0 000 100 000 100 000 100 000 100 100 56799999 _7 O V 100 000 100 000 100 000 100 000 100 100 4 4 d General Format Scaling Display Offset Sensor Filter Adjust Sensor mode Mode voltage including excitation x Scaling calculator Sensor range Min 0 Max 100 M Unit v Ge Physical range Min 0 0000 Max 16 0000 Unit bar Click on Save _ to store the made changes and configurations in the current file Or click on Save as E to store the configuration using a different name 7 4 Defining a RPM acquisition The following example shows how to use the scaling calculator for configuring a channel of a M FRQ device for acquiring a fan RPM The fan is a Balluff BOS M18 7 4 1 Configuring the module and channel The complete configuration of a frequency channel by using the scaling calculator is defined within the Signals main navigation tab 1 Select the module M FRQ in the left tree view You can find the General tab in the configuration dialog window Define the desired sampling rate In our example it is 1 Hz 2 Activate the desired channel in the right window of the channel overview and select the desired unit In our example the first channel is activated and the unit is 1 min 3 You can find the General tab in the configuration dialog window Enter any name for the channel in the Name field In the Description field you have the ability to edit additional information for the channel In our example the f
38. 0001 705 Which action do you wank to run BS Guided and configuration step by step AUTO oa Automatic configuration and displaying of data EN Manual configuration of signals acquisition and displaying First of all enter in the appearing Project window a Project name and check the field Value entry for Project name Afterwards enter a User and check the field Value entry for User For detailed descriptions of the project settings please consult chapter 6 7 Project IPEmotion IPETRONIK GmbH amp Co KG 43 139 Getting Started oe QEEERSEOORB IPEmotion Project Signals BR Hk ECH AUTO Acquisition izil Save as Automatic User guidance generation Name Company name Chassis ID Vehicle ID Project name Project manager name E Mail address project manager E Mail address user User login Description IPEmotion version J IPEmotion user guidance Project Project Signals Acquisition ER View Configuration Project properties Value Automotive manufacturer xY A1B2C3D4E5F6 Prototype 4711 Internal prototype test User surname User first name Firstname1 surname1 ipetronik com zw Y01 00 00 RC Build 6738 The first step Project is then defined as completely done and marked with a green symbol Select the next step Signals to continue In the appearing Signals window create the desired system and check the field Create system s Select components and check the field
39. Automatic configuration and displaying of data Dr Manual configuration of signals acquisition and displaying A Change into simulation mode No action Connect hardware and repeat detection Select the Connect hardware and repeat detection option and confirm with OK IPEmotion IPETRONIK GmbH amp Co KG 42 139 a Hz moton Please note that this option is only available if no hardware is connected or an automatic detection of the connected devices was not successful Automatic hardware detection The automatic hardware detection could not find any connected hardware what should be your next step Which action do you wank bo run Connect hardware and repeat detection Bee Guided and configuration step by step 2 D Manual configuration of signals acquisition and displaying CO Change into simulation mode x No action KH Fd Deactivate automatic hardware detection at start Guided and configuration step by step User guidance The user guidance explains step by step how to create a project define signals operate an acquisition and configure the displaying of the acquired data Each step to do is highlighted with a red background or red font color and points out the step by step proceeding Select the Guided and configuration step by step option and confirm with OK automatic hardware detection The automatic hardware detection was successful The following systems have been Found
40. CENSEE OR TO ANY THIRD PARTY EXCEED ANY LICENSE FEE ACTUALLY PAID BY THE LICENSEE TO IPETRONIK FOR THE SOFTWARE Since some states or jurisdictions do not permit the exclusion of implied warranties or limitation of liability for consequential damages in such states or jurisdictions the liability is limited to the fullest extent permitted by law 5 Intellectual Property Infringement Indemnification IPEmotion a IPETRONIK shall defend indemnify and hold LICENSEE harmless from and against any claims and fees including attorneys fees damage awards arising in connection with a claim that the licensed SOFTWARE or documentation when properly used infringes upon any presently existing valid and enforceable United States patent trademark or other intellectual property right provided that I such claim of infringement is not based on any Modification or action taken or suffered by LICENSEE other than the use of the licensed SOFTWARE and documentation in accordance with the terms and conditions of this agreement ii such claim of infringement is not based on any action by LICENSEE in modifying the SOFTWARE pursuant to the terms of Section 2 d IPETRONIK GmbH amp Co KG 8 139 e Hz moton ii LICENSEE promptly notifies IPETRONIK of such claim in writing at support ipemotion com and gives IPETRONIK exclusive control over the defense and settlement of such claim iv LICENSEE provides such cooperation and assistance a
41. E Data logger M LOG S LOG F IF EE TT E BECKHOFF 01 00 00 11626 BECKHOFF Bus Coupler IF Units L Lal CAN Acoutsibon 01 02 00 12519 CAN Acquisition with IPETRONIE C4M Ser JI Hotkey mm eg Demo 01 00 00 6928 Generation of demo signals If Plugins O e as 01 02 00 11571 Serial interface to GPS mouse IF Plugin specific options You can define additional settings for the respective plugin with the specific options With the button you have the ability to define the components module type and priority e g for the type selection of the Dry configuration of the respective hardware system and to edit additional options settings au Connection of IPETRONIE CAN acqui IPEmotion IPETRONIK GmbH amp Co KG 35 139 a IP 2 moton F IPEmotion settings IPETRONIK CAN Components Options Type Priority a Ba IPETRONIK CAN Normal ws SENS High WEE wal M SENS 6 en ma M SENS amp DSP Not used etl M SENS Gplus Normal The selection of the hardware components for the configuration by using a signal database is based on the Priority This preselection with a priority assignation of the system components facilitates the device selection and improves the system speed The High priority defines a preferred use of the corresponding hardware component at configuring with a signal database The hardware components which are defined with the Not used priority cannot be selected for an acquisition The bu
42. IPETRONIK IPEmotion You have the ability to create the needed description files by using WYSIWYG In addition the Plugin Designer generates a code frame for Microsoft Visual Studio 2005 and higher which already converts all information of the description files into source code The creation of a documentation in a XML file is also included Therefore the programming can be reduced to a minimum Please find further information and descriptions on how to create a plugin and use the PlugIn Designer in the respective plugin documentation IPEmotion IPETRONIK GmbH amp Co KG 139 139
43. N THE ABOVE AGREEMENT DURING INSTALLATION COPYING OR USING THIS PRODUCT IN ANY WAY YOU ACKNOWLEDGE THAT YOU HAVE READ THIS LICENSE AND THAT YOU UNDERSTAND AND EXPRESSLY AGREE TO BE BOUND BY THE TERMS AND CONDITIONS SET FORTH BELOW IPEmotion IPETRONIK GmbH amp Co KG 6 139 e Hz moton A valid software license is required to use the PEmotion software 1 Definitions a SOFTWARE is defined as computer program in object code or machine readable format together with any and all modifications enhancements updates and improvements provided by IPETRONIK as well as any subsequent versions corrections bug fixes enhancements updates or other modifications regardless of the source The term Licensed Software shall not include the source code version of the Licensed Software EQUIPMENT is defined as automotive measuring equipment produced by IPETRONIK as well as other parties LICENSEE is defined as the recipient of this SOFTWARE and any of its employees agents or representatives MODIFY or MODIFICATION is defined as change to the SOFTWARE by LICENSEE in order to customize the SOFTWARE for use solely by LICENSEE 2 License Terms IPEmotion a As long as LICENSEE complies with all terms in this Software License Agreement IPETRONIK grants LICENSEE a non exclusive non transferable license to load and use the SOFTWARE upon the terms and conditions set forth below LICENSEE has the right to load the SOFTWARE fo
44. Name Signal generator 1 Description Signal form from File Select the Function generators and expand your configuration by a generator with the Add signal generator button or the context menu of the right mouse button Afterwards all configured generators are listed Each generator can be defined with the grid columns or the tabs Further grid columns are available with the Column Chooser function The function generator runs in continuous operation by default i e there are no cycles triggers to be considered But a reasonable use with test bench applications requires triggers The latest version offers a start stop and hold trigger see Operating tab which can be activated deac tivated independently of each other and defined with any formula of the IPETRONIK formula edi tor Use the Cycles parameter to define a specific number of cycles for the function generator Es The values calculated by the function generator are output on an IPEmotion channel see Output tab This channel has to have an output functionality and must be a numerical value channel Use the Signal tab to define the working and signal frequency offset and amplitude depend ing on the function generator type Please note that the signal frequency must be maximum the working frequency 2 You can also manually define a signal frequency lt 1 Hz Otherwise an error message is output and the values are not transferred The working frequency may be great
45. O Cu CO CO CO CO CH Minimum physikalis 0 005 1 GI System status The Data manager main navigation tab offers you the ability to manage and analyze the acquired data Open the desired dataset ad file the Load Ge button Detailed information is shown for the measured channels of an open dataset in the area Properties Loaded acquisition datasets can be converted to other supported file formats and or stored via the dialog Export gt To export records by using the Export or Excel button into the Excel format at least Excel 2003 has to be installed on your computer IPEmotion IPETRONIK GmbH amp Co KG 98 139 Working with IPEmotion P MI OT O N 6 5 1 Data formats KML KML Keyhole Markup Language is a markup language to describe geo data for Google Earth and is based on XML The World Geodetic System 1984 is exclusively used as geodetic reference system in KML documents This system includes all coordinates with geographical length width and height above sea level if available The KML format in IPEmotion offers you the ability to store measure ment and route data and to visualize these data in Google Earth Select the Data manager main navigation tab B Open the desired data set DIAdem DAT file with the Load Co button Es Convert the loaded data set with the Export ie button into the KML format Save the file in the standard export directory or in a user defined one File name Test
46. P morton SER E RS KK Pet au eit Boe Lh ie mm O 1 F amp F W LENS alona Piui Ad Gg Lighe Trigger activ speen EFM brake 4 83 Km h 4 41 U0 min 1N i Torque Light Bisturbance 4 00 KN DW 10 ch Bi May bole OA al 20 A4 AM KU 38 40 az 56 SR 0 Torgue KE spied 8 D LE Soeed IPEmotion User manual May 2012 All rights reserved sun P moton Content CONTENU EE 2 1 Important information soccscscigccscteeccdnctienecnesieccsneerncdantesetevetnanarceevtateseen 6 1 1 Liability Warranty Copyright License agreement 6 1 1 1 Limitation of liability 0 ceeccceceeeeeeeeeeeeeeseeeeeesaeeeeeeseeeeesaaeeeesaeeeeesseeeeeesaeeeesseeeessaeeees 6 a KEN EE a r E E E E E E 6 LLS ee la and e e ed e EE 6 1 1 4 Software license agreement E 6 1 1 5 General license agreement E 6 d General information cccceseceeeseeeeeseeeeeeeeeeneeseeneeseeneesenneesennensoass 11 2 1 eler L YANNI E 11 NOUN EE 11 221 Manual E E e e EH 11 Pe ee PEMO 11 DEE 11 2 5 LOEGENd Of the used ICONS sssrinin a EN E AA EKERN NT ERRAT E AN En URN E AAE 11 24 OUDON E 12 2 5 Product CST e sss ars saiccsresisciieiecins Setiencr oi seca mains stlate eis daniec was slasaamsdoeeabassadGesuadeueecteieedeisannsteeewaseastass 12 2 6 Related docUumentaions ken 12 261 IPEMOUON GOM enone ee ee ee E Ae EE ey ee On ne nn rane ieee mee ree 12 ZO e 12 St DOCUMENTATION feedbaCkK ciciciiss
47. PrefixTestv0010104 element Different video files sections are visualized with a red line or you can Use the slide control under the visual element to display different sections The y t chart led element in combination with the video display offers you the ability to compare single video files sequences 40 913 s with time synchronous channels of the measurement file Drop o the corresponding trigger channel into the y t chart The single sequences in the example are visualized with a red line Loaded measurement files 5 Pages Loaded measurement files Display 4 PrefixTestVO010104 30 A Time A Time_abs 1 0 20 0 40 Min s 1 20 1 40 2 00 triggerVideorecording State IPEmotion IPETRONIK GmbH amp Co KG 100 139 Working with IPEmotion P MI OTI O N 6 6 Analysis 220 e me Lee KR IPEmotion gt Oo X Signals Acquisition View Data manager Analysis Info ed Le Fix Mave D Ka Sg 7 PP Back Ea Optimal y area D I Cursor Start E Undo grid Stretch compress v Select Synchronized Original area B 2 Cursors on Measurement files Loaded measurement files Pages Loaded measurement files ES S Sample iad Ni Sawtooth 1 l 4 M Sawtooth 2 l 4 wi Rectangle 1 wi Rectangle 2 i gt de 0 4 5 E 20 40 60 80 100 120 140 160 The Analysis main navigation tab offers you the ability to visualize and analyze your data by using a y t chart Dra
48. TESTMASKS 27 4 gt 0 TIME A time counter which adds times and sends the sum as long as the operators values are gt 0 5 If the operator is lt 0 5 the time counter is reset and sends 0 0 Syntax TIME Operand IPEmotion IPETRONIK GmbH amp Co KG 84 139 e Hz moton Examples TIME Channel 1 gt 10 sends the period over which the values of Channel 1 are greater than 10 If the Channel 1 values are less than or equal to 10 the time counter is reset to 0 TIMER A time emitter which sends 1 if Op1 is not changed within Op2 seconds otherwise 0 Syntax TIMER Operand1 Operand2 Examples TIMER Channel 1 10 sends 0 if the value of the operand is changed for the first time If the value is not changed again within 10 s after an entry 1 is sent VALID Checks Operand 1 for validity NoValue If only one operand is used 1 is sent in case of a valid value and 0 in case of an invalid value lf a second operand is used the value of operand 2 is sent in case of invalidity of operand 1 even if it corresponds to the NoValue otherwise the value of operand 1 is sent Syntax VALID Operand 1 VALID Operand1 Operand2 Examples VALID 1 45 gt 1 0 VALID NaN gt 0 0 VALID 1 45 2 31 gt 1 45 VALID NaN 2 31 gt 2 31 VALID NaN NaN gt NaN XOR Corresponds to the logical Exclusive Or operator If one of the partial conditions is met value 1 is sent otherwise 0 Syntax
49. age T Jave Text Pd Save as Line Bw Runtime version Rich text A Compare Arrow Print F The layout creation in IPEmotion allows to choose between D standard formats Layout designer Es Empty layout Es IPELayout Landscape A4 IPEmotion IPETRONIK GmbH amp Co KG 28 139 a Hz moton B IPELayouot Landscape Letter a PELayout Portrait A4 PELayout Portrait Letter Use the Open ky button to load user defined layouts Headers and footers can be freely selected and allow place for comments e g project properties Furthermore different object image text etc can be added The Standard layout button allows to define the current layout as standard This activates the layout for the preview and the reporting page Field commands Field commands are an important feature of word processing programs and offer the ability to inte grate variable information in the text Field commands include information which is automatically up dated e g date time Project specific parameters can also be used as field commands e g device used for acquisition measurement software Please note the following regulations concerning formatting The following characters are allowed letters from A Z and a z digits underscore I No special characters are allowed The first character must be a letter CG Field commands are always capitalized Field commands can include several parameters or arguments A Severa
50. as follows 1 Inthe Signals menu click in the window Signals 2 Under the point Signals click on the Import button and select the Signal import 3 Open the desired signal database mpc and select the desired signals by using a filter or multiple selections Assign the signals with Drag amp Drop or by using the arrow buttons 4 Select the desired hardware in the Components column Confirm with OK 5 Click on the Start displaying button to start the displaying of the acquisition data 6 Click in the Acquisition menu on the Start storing button to record the acquisition data IPEmotion IPETRONIK GmbH amp Co KG 67 139 P moton Working with IPEmotion Structure of a signal database Files for signal databases are XML files mpc The schema file Mpc xsd is available for validating MPC files and is installed in the following directory Windows XP C Documents and Settings User Application data IPETRONIK IPEmotion Vxx xx xx template Windows 7 C Users All Users IPETRONIK IPEmotion Vxx xx xx template A signal contains the following parameters group string Signal group point string Signal sensorMode uint32 Sensor mode see following table sensorMin double Min limit of the sensor range sensorMax double Max limit of the sensor range sensorUnit string Sensor unit for elements with the sensor mode undefined sampleRate double Sampling rate in Hz optional The following sensor modes are currently availa
51. ates the operator with the calculation formula Op1 t Op1 t 1 DeltaT IPEmotion IPETRONIK GmbH amp Co KG 78 139 e Hz moton Syntax DIFF Operand Examples DIFF Channel 1 sends the differential of the current and last value of Channel 1 EDGE NEG If the operator value is a negative edge the result is 1 0 otherwise 0 0 Syntax EDGE NEG Operand Examples EDGE _NEG Channel 1 sends 1 0 if Channel 1 changes from 1 to 0 otherwise the result is 0 0 EDGE POS If the operator value is a positive edge the result is 1 0 otherwise 0 0 Syntax EDGE_POS Operand Examples EDGE POS Channel 1 sends 1 0 if Channel 1 changes from 0 auf 1 otherwise the result is 0 0 FLOOR Rounds a floating point number off to the next smaller integer Syntax FLOOR Operand Examples FLOOR 13 53 gt 13 0 FLOOR 2 41 gt 2 0 IF Runs a ramification operation If the condition of Operand1 is met the value of Operand2 is sent oth erwise the value of Operands Syntax IF Operand1 Operand2 Operand3 IPEmotion IPETRONIK GmbH amp Co KG 79 139 e Hz moton Examples IF 3 gt 2 4 5 gt 4 IF 3 lt 2 4 5 gt 5 INT Calculates the operator s integral with the calculation formula Op1 t Op1 t 1 2 DeltaT Syntax INT Operand Examples INT Channel 1 sends the integral with the current and last value of Channel 1 INT UP Sends the upper integral wit
52. ation A Manual configuration Es Configuration by using a signal database 5 7 1 The automatic configuration By using the automatic configuration the connected hardware devices are read and a configuration of the signals is generated automatically The automatic configuration function requires that the hardware is connected to the CANbus and active If this is not the case connect the desired devices to the CANbus o your computer The command window Configuration is accessed through the Signals menu With this command you can select the active hardware platform J 20 W 7 ale Eo ooN IPEmoten Signals Acquisition view Data manager Analysis Info EI i Vv ge O E Details Add system Add components IPETRONIK CAN Detect Initialize Start displaying Hardware Configuration ACCESS View IPEmotion IPETRONIK GmbH amp Co KG 49 139 a P moton The displayed hardware system depends on your selected installation type To acquire data with the automatic configuration proceed as follows 1 Click in the menu Project on the AUTO generation Gi button to start the automatic configuration generation process A Project Signals ag mM mo Ce a se AUTO New Opening an PS Save as Automatic User guidance existing file generation File Configuration 2 After the successful detection of hardware and initialization the connected hardware devices are shown in the menu View 3 Click in the menu View on t
53. ay tab a minimum of 0 and a maximum of 4000 was selected for the displaying range Or directly enter the values in the channel overview using the columns Display Min and Display Max 6 Inthe Sensor tab a sensor excitation of 15 V was selected IPEmotion IPETRONIK GmbH amp Co KG 119 139 KS IP Practical application examples a Mi OTI O N Name Unit PhysMin Phys Max Display Min Display Max Sampling rate Sensor Min Sensor Max gt 1 Hz 56299999 2 Hz 0 200000 0 200000 1 Hz 0 200000 56299999_3 Hz 0 200000 0 200000 1 Hz 0 200000 56299999_4 Hz 0 200000 0 200000 1 Hz 0 200000 4 b General Format Scaling Display Input signal Sensor Filter Sensor mode Mode Frequency X Sensor range Min 1 Max 100 Unit Hz Physical range Min 60 00 Max 6000 00 Unit 1fmin Click on Save _ to store the made changes and configurations in the current file Or click on Save as E to store the configuration using a different name 7 4 2 Selecting storage group and channel In the Acquisition main navigation tab all available channels are shown To select the used channel for the acquisition proceed as follows 1 Select the branch Storage group 1 in the left tree view All available channels are shown in the Available channels window Select the desired channel and click Selection or drag the channels into the right overview Included channels by using the Drag amp Drop function 2 Using the Saving tab you can define the fo
54. based on temperature and pressure The temperature unit is C and the pres sure unit is bar The density unit is kg m Calculates the specific volume based on tempera ture and pressure The temperature unit is C and the pressure unit is bar The specific volume unit is m kg Calculates the specific internal energy based on temperature and pressure The temperature unit is C and the pressure unit is bar The specific inter nal energy unit is kJ kg Calculates the specific entropy based on tempera ture and pressure The temperature unit is C and the pressure unit is bar The specific entropy unit is kJ kg K Calculates the isochoric heat capacity based on temperature and pressure The temperature unit is C and the pressure unit is bar The isochoric heat capacity unit is kJ kg k Calculates the isobaric heat capacity based on temperature and pressure The temperature unit is C and the pressure unit is bar The isobaric heat capacity unit is kJ kg k Calculates the subcooling enthalpy difference based on temperature and pressure The tempera ture unit is C and the pressure unit is bar The enthalpy difference unit is kJ kg Calculates the superheating enthalpy difference based on temperature and pressure The tempera ture unit is C and the pressure unit is bar The enthalpy difference unit is kJ kg Run climate calculations MOTION T_sat_vap Pressure chan nel Index of fluid roh_std Temp
55. basic version which has not to be unlocked 4 3 2 Basic version The free basic version must be licensed At entering the purchased license key at first start of l PEmotion the basic version is activated and can be used with limited functionality An unlock process is not necessary 4 3 3 Versions against charge All versions against charge must be activated and unlocked The activation runs at first start of IPEmotion The versions against charge have to be unlocked within 30 days Otherwise the purchased version turns automatically into the basic version with limited functionality IPEmotion IPETRONIK GmbH amp Co KG 21 139 EH Setting up and removing pP ges Mi OTI O N 4 3 4 Licensing IPEmotion Follow the instructions for installing PEmotion and directly license it for this PC 1 Launch IPEmotion from the menu Start Programs IPETRONIK gt IPEmotion 2 The appearing dialog shows an overview of possible steps Select one of the listed options PF Licensing Thank you For installing IPEmotion Please select one of the Following options IF vou do not have a license you can best the demo version use the basic edition or buy an edition online How do vou want to proceed pH Buy IFEmotion online Bi Enroll For unlimited testing all Functions For 30 days Testing of all Functions without restrictions this screen appears at every start of IPEmotion E Do not enroll and use permanently as limited basic ve
56. ble Value NoUnit Ox00000000 Signal without unit Status Ox00010000 Status signal EventCounter Ox00020000 Event counter Length Ox00000001 Length Mass 0x00000002 Mass Time 0x00000003 Time PeriodicDuration 0x00010003 Periodic duration PulseDuration 0x00020003 Pulse duration PauseDuration 0x00030003 Pause duration TimingOffset 0x00040003 Time offset Current 0x00000004 Current CurrentWithSens 0x00010004 Current including sensor excitation Temperature 0x00000005 Temperature Thermocouple 0x00010005 Thermocouple Pt100 0x00020005 PT 100 Pt200 0x00030005 PT 200 Pt1000 0x00040005 PT 1000 MolarAmount 0x00000006 IPEmotion IPETRONIK GmbH amp Co KG 68 139 Working with IPEmotion LuminousIntensity Voltage sens Stg Icp Resistance Frequency FrequencyFromPeriod Force Energy Power Pressure Speed Rpm MassFlowRate Angle Strain BaudRate Percent DutyCycle ByteSpace Undefined IPEmotion 0x00000007 0x00000008 0x00010008 0x00020008 0x00030008 0x00000009 0x0000000A 0x0001000A 0x0000000B 0x0000000C 0x0000000D 0x0000000E 0x0000000F 0x00000010 0x00000011 0x00000012 0x00000013 0x00000014 0x00000015 0x00010015 0x00000016 1 IPETRONIK GmbH amp Co KG IP MOTION 69 139 Working with IPEmotion P MI OTI O N 6 3 Acquisition DE P A w3 8 Lei S IPEmotion Project Signals Acquisition Viev Data manager Analysis Info Mm E O i Add calculation Add storage Add limit ST
57. can be se lected and configured within the formula editor The refrigerant is defined by an index These are val ues from 1 to 7 according to the above table of refrigerants h_std Runs an enthalpy calculation based on refrigerant h_std Temperature channel temperature and pressure The temperature unit is Pressure channel Index of C and the pressure unit is bar fluid h liq Runs an enthalpy calculation based on refrigerant h_lig Temperature channel temperature and pressure This calculation can Pressure channel Index of only be used for liquid or mixed measure points fluid The temperature unit is C and the pressure unit is bar h_vap Runs an enthalpy calculation based on refrigerant h_vap Temperature chan temperature and pressure This calculation can nel Pressure channel lndex only be used for vapor measure points The tem of fluid perature unit is C and the pressure unit is bar TI sat Jg Runs a calculation of the saturation temperature at T_sat_liq Pressure chan the boiling line based on refrigerant and pressure nel Index of fluid The temperature unit is C and the pressure unit is bar IPEmotion IPETRONIK GmbH amp Co KG 126 139 Software add ons TI sat van ho sid V spec u_ Sid s std c vol CG pres subcooling superheating IP Runs a calculation of the saturation temperature at the dew line based on refrigerant and pressure The pressure unit is bar Calculates the density
58. cription field you have the ability to edit additional information to the respective channel In our example the following descriptions are selected A T_1 T_6 Temperature of channel 1 6 T_out outside temperature T_p_LAC temperature before load air cooler T_a_LAC temperature after load air cooler T_CAT catalyst temperature T_in inside temperature T_brakef_FR brake fluid temperature front right T_brakef_FL brake fluid temperature front left T_brakef_BR brake fluid temperature back right T_brakef BL brake fluid temperature back left with additional description Tempers brake fluid assembly cable 10 Define the maximum and minimum displaying range of the acquisition value To do so you have the following two abilities Enter the values in the channel view within the Display Min and Display Max column Enter the values in the Display tab within the Min and Max field In our example the following displaying ranges are selected IPETRONIK GmbH amp Co KG 109 139 Za Practical application examples P ae MI OTI O N T1 T6 0 50 C D T out 20 40 C P T p LAC 0 50 C o T a LAC 0 50 C P T_CAT 0 1000 C F T_in 11 30 C T_brakef_FR 20 150 C F T_brakef_FL 20 150 C T_brakef_BR 20 150 C D T_brakef_BL 20 150 C Systems Name Active Unit Phys Min Phys Max Display Min Display Max Sampling rate A lt
59. ctionality s Add channel Shows a channel list for adding to the visual element Several channels scan be selected This function always refers to the selected circuit IPEmotion IPETRONIK GmbH amp Co KG 130 139 e Hz moton Es Delete measurement point This option is only active if the diagram contains channels This function always refers to the selected circuit ea Add circuit Adds a new and empty circuit and selects it a Delete circuit Deletes a circuit The circuit is selected with a list containing all available circuits Keyboard control The log p h diagram offline allows to control the slide control with the keyboard a Increase time value Arrow up Arrow right Decrease time value Arrow down Arrow left Start time Home End time End 8 2 Control 8 2 1 PID controller PID controller objects in PEmotion allow reproduction of real PID controller functionality This includes the use of any numeric channels as actual value nominal value and control value Variables like am plification factor Kr lead time Tv and follow up time Tn can be defined as constants The activa tion of the expert mode see Options gt Basic settings allows using these variables as internal chan nels which can be changed during running acquisitions Use PID controllers The Acquisition main navigation tab shows the PID controller function within the tree structure of the setup area Control IPEmotion IPETRONIK GmbH
60. cuit status You can now read your momentary value from the respective visual element but this value is not recorded and stored To record and save the data click on Start storing The acquired data is now stored in the application data At using the standard installation the data can be found in Windows XP C Documents and Settings xx My Documents IPETRONIK IPEmotion Windows 7 C Program Files Common Files IPETRONIK IPEmotion StorageData To stop the data displaying click on Stop displaying KO IPETRONIK GmbH amp Co KG 128 139 ssn Hz moton See Selection window Channels 100 Pages Channels Display i AO LL Name i a Se K i CH E E ee ee fF ET fF ners es a ce TETRIS ee ge AA SI 150 200 250 h kj kg 350 Steam content Temperature Entropie Dew line Bolling line The diagram is displayed with the tree structure The Display tab shows the diagram at the highest level and the subordinated signals The log p h diagram has only one x y axis The axis description and the corresponding units are shown by default The enthalpy unit is fixed and cannot be changed The pressure unit of the y axis can be defined by the user The units used for displaying can be defined with IPEmotion Options gt Units The following background graphs are shown by default Dew Boiling line Steam content line Iso therms pressure enthalpy pattern at constant entropy
61. d After the successful installation the following screen is shown IPEmotion IPETRONIK GmbH amp Co KG 19 139 Za Setting up and removing P ges Mi OTI O N Click Finish to exit the installation wizard IPEmotion is now shown as an icon on your desktop as well as in the menu Start gt Programs gt IPETRONIK IPEmotion Due to the fact that the PEmotion installation file is a exe standard setup file user specific parameter configurations can be made with a silent installation e g options for installation indication repair Q With the entry of the command msiexec the following screen appears where the possible administrative installing options are listed Windows Installer Windows Installer 3 01 4000 1823 msiexec Option lt Required Parameter gt Optional Parameter Install Options lt package i gt lt Product msi gt Installs or configures a product Ja lt Product msi gt Administrative install Installs a product on the netw Jeu lt Product msi gt t lt Transform List gt g lt Language ID Advertises a product m to all users u to current usi lt uninstall 74 gt lt Product msi ProductCode gt Uninstalls the product Display Options quiet Quiet mode no user interaction passive Unattended mode progress bar only fq nibirif Sets user interface level No Ul b Basic Ul r Reduced Ul f Full UI default For the silent installation of PEmotion call Setup PE
62. d run the limit control per key activation or click You can load internal scripts from the scripting environment as well as external vbs files The external scripts are then loaded into the scripting environment Displaying limit violations IPEmotion offers the ability to display limit violations by using all instruments diagrams and colors The colored displaying within the digital elements is not possible The displaying of violations takes place within the View and Analysis main navigation tabs Select a visual element and open the diagram properties Lee by double clicking inside the displaying area General gea Time axis Activate the limit value displaying SES Channel view H yt chart Channel E Axis marking II Limit violations are displayed by using continuous lines and a From channel config m changing background color of the corresponding channel name Scaling O Linear within the legend O Logarithmic Alphanumerical display Line color Show limit values m IPEmotion IPETRONIK GmbH amp Co KG Legend r Working with IPEmotion P VM OTI O N Limit violations are displayed by using a changing background color Progress bar Limit violations are displayed by using a changing font color of the digital display and the bar Additionally marks are set within the bar by using simple lines This method allows a permanent visibility of the limit value Tachometer Limit violations are displayed by using a
63. ddition Value1 Value2 Temp_1 Temp_ 2 Result1 Subtraction Value1 Value2 Temp_1 Temp_ 2 Result1 Multiplication Value1 Value2 Temp_1 Temp_2 Result1 Division Value1 Value2 Temp_1 Temp_2 Result1 MOD 17 mod 3 2 Sens_channel1 MOD Sens_channel2 The modulo function remainder shows the remainder of a division of two integers ABS ABS 17 17 ABS SENS_channel3 The amount function converts a negative value into a positive one SIGN Sign 3786 SIGN DMS_channel or SIGN Temp_1 return value 1 Temp_ 2 The SIGN function returns the sign of the numeric term which is written in brackets Depending on the read number the function returns the values as follows lal At negative numbers SIGN returns 1 Lal At positive numbers SIGN returns 1 lal At zero SIGN returns 0 Equal Temp_1 70 Temp_1 70 The operator compares the values on the left and right side of the equal sign The return value is 1 in compliance otherwise 0 Unequal Temp 1 lt gt 70 Temp_1 lt gt 70 return value 1 Value1 is compared with value2 If the values do not comply the return value is 1 otherwise 0 Greater than 3000 gt 2 return Temp_1 gt Temp_ 2 value 1 200 gt 4000 return value 0 IPEmotion IPETRONIK GmbH amp Co KG 72 139 e H zwMenon The value left to the sign is compared with the value2 right to the sign If value1 is greater than value2 t
64. ding horizontal or vertical division Change into the Channels tab and select the desired channels You also have the ability to use multiple selections Drag the selected channels into the corresponding screen areas by using the Drag amp Drop function The properties of the respective visual element can be defined by using the Properties button or by double clicking on the element In our example the following properties are defined IPEmotion The displaying behavior of the y axis is fixed The layout for the alphanumerical displays is vertical IPETRONIK GmbH amp Co KG 113 139 P Practical application examples MI OTI O N Channels Name yo lee Ta T_4 T_brakef_FR T_brakef_FL T_brakef_BR T_brakef_BL 56699999 16 T_Diff_LAC gt Me a 50 50 4 50 50 50 50 LZ Pages Channels Display 40 40 4404 404404 40 LZ S 30 304 304 30430430 rs 20 4 204 204 20420420 TA 104 104 104 104 10 10 E SR 0 10 20 30 T_6 50 550 Tout 40440 T_p_LAC 304 30 edium Tae EAC 207420 EE 107410 T_in T_p_LAc T_a_LAac T_brakef_FR 150 150 150 T_brakef_FL 1004 1004 100 4 100 T_brakef_BR 504 50 4 50 T_brakef_BL 0 T_Diff_LAC T Z ee ee T_brakef_FL T_brakef_BR T_brakef_B_medi um T Z ee ee BL After having displayed the necessary elements and corresponding channels click on Start D l displaying You can now read your momentary values from the respective visual element but these va
65. displaying area to the original condition by using the button Original area LGS Furthermore you can use the following keyboard navigation for analyses amp Change between the screen pages Charts Measuring cursor Move the measuring cursor on the active graph by exactly one value TIA Move the active measuring cursor by 0 5 of the x axis range to the right left Ho me End Move the active measuring cursor to the point which is the closest to the upper lower limit of the x axis range Tab Change the active measuring cursor Charts Zoom mode mouse Zoom in Zoom out the x axis Shift Mode Select Shift Zoom Im Zoom out all y axes Ctrl Zoom in Zoom out the active y axis Shift Move the x axis by one axis scaling to the right left Ctrl ie Move the x axis by the total length to the IPEmotion IPETRONIK GmbH amp Co KG 122 139 KS Practical application examples f a MI OTI O N right left Shift Die Move all y axes by one axis scaling up down Ctrl Die Move the active y axis by one axis scaling up down Ctrl Alt Mode Stretch Compress Video display Progress slide control e a N Change between the images within the video T A Move back forth within the video Home End Change between the first last image IPEmotion IPETRONIK GmbH amp Co KG 123 139 Fa IP Practical application examples Mi OTI O N 7 5 Defining a triggered acquisition The following exa
66. e That means that the availability of field com mands can be restricted and the commands cannot be used for every page Script calls l PEmotion offers the ability to connect internal scripts with field commands e g to calculate the aver age value of a channel A field command with connected script has the following formatting SCRIPTINVOKE Script name Function name Argumentt ArgumentN Es Script name name of the script Es Function name function to be called with the script s Argument N any number of arguments If functions without a return value are called the original text remains consuming operations Calling the printing function or the print view can be significantly delayed because the script is first completely executed i lIt is necessary to ensure that the script called with a field command does not run time The following overview shows potential reasons for displaying the message An error occurred in the script 7 A function not in the script is called IPEmotion IPETRONIK GmbH amp Co KG 30 139 a Hz moton e Wrong transfer parameters are entered script name function name argument The formatting of the field command is invalid The script does not exist Field commands in layout designer IPEmotion allows to use field commands with the Text T and Rich text T elements The com mands edited in the designer are interpreted at printing and in the print preview The Field
67. e Free 2 point scaling you can alternatively define the values Enter the desired values in the field Ordinates in the sensor range or select the values in the Channel settings Sensor range area Confirm your entries with OK Scaling calculator Channel settings Sensor mode Voltage including excitation Sensor range Min Sensor range 0 5V Max Min Max Physical range Unit Min 0 bar Max 16 bar Measure value 1 Linear equation y m x b m D D Bel sch DU a gt 0 Ki Lo Ee e Factor 3 2 Value Y Offset 0 2 3 Acquisition accuracy decimal places 3 gt Value Y e Snapshot Ordinates in the sensor range Physical range eebe oly in J Average over time 5 1 s Test acquisition Cancel 5 In the Display tab a minimum of 0 and a maximum of 16 was selected for the displaying range Or directly enter the values in the channel overview using the columns Display Min and Display Max 6 Inthe Sensor tab a sensor excitation of 15 V was selected IPEmotion IPETRONIK GmbH amp Co KG 117 139 Do wm Practical application examples M OTI O N Mame Active Unit Phys Min Phys Max Display Min Display Max Sensor Min Sensor Max a TTT TTT D AC bar 100 000 100 000 100 000 100 000 100 100 56799999 3 Y 100 000 100 000 100 000 100 000 100 100 56799999_4 m V 100 000 100 000 100 000 100 000 100 100 ELE S E V 100 000 100 000 100 000 100 000 100 100 56799999 6 g oly 10
68. e ceeeeeeeeeeeeeeseeeeesseeeeeeaeaseeeseeeeeesaeeseeseeeeeesaeeeeeeas 105 IPEmotion IPETRONIK GmbH amp Co KG 4 139 sun Hz moton Bieber lei aac eerste es clear E E E EE E EENE elder eda De E E EEN EEE 105 7 Practical application examples 2 cccceeeeeeeeeeeeeeeeeeeeeeeeeeeeeees 107 7 1 Launching 1P PTI EN 107 7 2 Running a temperature ACQUISITION ccccceccceececeeeeceeeeseeeeseeeeaeceseuceseeeseueeseeeesaeesaeeesueesaees 108 en DN Geier Ed E CEET 108 7 2 2 Configuring modules and channels 109 7 2 3 Defining storage group S and fOrmula S cccceeeccecseeeeeeeeeeeeeeeeeeeseeeeeesaeeeeesaeeeeesneeeees 110 7 2 4 Visually displaying ACQUISITION values ccc cccccescceseeeeeeeeeeeeeeeseeeseeeeeseueessaeeesaeeesaeeesees 113 7 2 5 Managing the data 114 7 2 6 Displaying and analyzing data 115 7 3 Defining a pressure channel by using the scaling calculator 116 ZA Defining a RPM acoutsrton E 118 7 4 1 Configuring the module and channel 118 7 4 2 Selecting storage group and channel 120 7 4 3 Visually displaying ACQUISITION values ccc ccccceeeceeeeeceeeeeeeeeeseeeceeeeeseeessaneesaeeeeseneessees 121 LAA Managing Me d la E 122 1 4 5 Displaying ANG analyzing dala EE 122 7 5 Defining a triggered ACQUISITION ccccceeccccceeeceeceeeeeeeeeeeeeeeeeeeesaeeeesseeeeeeseeueessaeeeesaeeseeesaess 124 6 DOM TE e D E 126 8 1 Climate package AA 126 8 1 1 Climate calculations cc
69. e prior size EJ Close Close the IPEmotion application 5 2 The application button Click on the a button to open the application menu 5 3 The application menu The application menu contains basic functions as New Open Save Save As Runtime version Print and Close as well as further properties such as View Options Support file and About The right partial view of the application menu contains a list of the recently used projects The Print function is implemented with limited functionality and not yet localized The View function contains the menu points Message window and the Reset command Show or hide the message window and reset the displaying configuration to the default parameters IPEmotion IPETRONIK GmbH amp Co KG 2 139 a Hz moton VERE tH hE Recent projects list New Open Save Save as Runtime version Compare Print Layout designer View Options Support File About Clase S Ego ole 5 3 1 Layout designer l PEmotion offers the ability to create individual reports with an integrated editor A predefined layout guarantees a consistent style of all report pages Every object text line image etc can be added to the editor with Drag amp Drop and modified change size color etc Open the Designer with the Layout designer menu point The last used layout is loaded at starting the layout function The current version offers the following standard elements Open Im
70. e sensor database cc cccccccceeceeeeeeeseeeeeeeeeeeeeeeeseeeeeseeeeseeeeeseueessaeeesseeeesneeesaees 60 The data base TOMA EE 62 O20 PING I ECO EE 64 CANGOD AZL UDS orae E E A A RAA 65 Rent 65 AGN SS gonna ccc eda E teste E E E E aa ni et E esi abs seca nos vais Maaueak E 66 6 2 7 Configuration with Signal database naannnnennensannnnennnstnnnnrnrnrsrnrrnenrnrsnrrrnsnrnnsrnrrnenrrennnn 67 Structure of a Signal database AA 68 Oo AU EE 70 SE a AUN EE 71 OAC Ss OD EE 71 Gove erun ET COMMON EE 72 Bo Co a eee eee eee eee et E ee eee eee eee ee eee ee 74 639 LIMIECVAIUS MONTON WEE 86 Limit value AS Constant 87 KORVAUS eu E 87 R leileieft Wanle II 88 Displaying limit violations axieiaiarceansadaeeerestdsvancndiswswaysdnedwand Gdnenarusdiawuns ieawheiwddeeowas dda tweeatanendiawededuaNdlauwnte 89 SE SET 90 6 4 1 Using the visual element kA 90 Alphanumerical display cccccsscccsscecescecaeeccececececaueceueesueeseecsaeeceueesueesseessaeessueessueeaueessaeeseas 94 DEE eegene 95 ACUO EEN 95 64 2 Keyboard handling sisi ce baclofen de in oe hacia aids plains Senbsweladats 96 6 5 Data manager ccccccceccecesececesecceeseeceeseeseaececeueeeeaseeeesucesaseessaeeeseaeceseueeesaseessageessaesennesenass 98 Ca TARA TOF EE 99 FU epee tect snes Eeer 99 TE SIS VIS GATA eaae EEE EAA EE E AEE EEEE 100 E ne 101 GT CRA ee 101 66 2 K yboard hanNdiNg EE 102 O let WEE 104 6 7 1 Internal automation mtertace cece cec
71. ected value If the resulting value differs considerably from the expected value which has been defined by a tolerance level a corresponding warning is displayed TEDS Sensor Use the TEDS sensors Transducer Electronic Data Sheet for automatic detection and configuration of data acquisition systems see TEDS sensors 6 2 5 Using the sensor data base Scaling calculator Entry mode Spott scaling e In Sensor data base kenn settings The sensor data base in IPEmotion offers information about any count of sensors For example the following relevant data of a sensor are saved Name e Type IPEmotion IPETRONIK GmbH amp Co KG 60 139 e H zwMenon Acquisition range a Scaling and linearization information B Adjusting date It is embedded into the scaling calculator for allowing a quick configuration of known sensors The sensor data base can contain various information of a sensor Two different application cases may be distinguished for the specification of the data to be saved in principle A only the sensor type in the data base is described A a special sensor in the data base is described In the first case the sensor data base only includes basic information about the sensor types and the following descriptions for instance are not saved in the data base Calibration date A Serial number a Storage location This model requires only a few descriptions and does not force the possibility to change data i
72. ed below have not been followed 1 1 2 Warranty Products accessories and services have a 12 months warranty All product data specifications drawings etc correspond to the current condition of the indicated creation date For the purpose of optimizing technical processes and production some details of our modules and accessory components may be modified at any time without prior notification Although the present document has been prepared with the utmost attention to detail it may not be exempt of misprints typing or transcription errors These errors are not covered by any warranty 1 1 3 Copyright and Duplication We reserve all rights in particular those of property copyright and trademarks The rights related to any third party trademarks mentioned in the present document remain unaffected This document may not be duplicated partially or entirely without the prior approval from IPETRONIK GmbH amp Co KG All graphics and explanations are copyright protected Any use beyond the scope of the document is prohibited 1 1 4 Software license agreement This software is property of IPETRONIK GmbH amp Co KG and is protected by copyright laws Its total or partial reproduction is strictly forbidden 1 1 5 General license agreement IMPORTANT READ CAREFULLY THIS IS A LEGAL AGREEMENT BETWEEN YOU LICENSEE AND IPETRONIK GMBH amp CO KG IPETRONIK INC IPETRONIK BY CHECKING I ACCEPT ALL OF THE TERMS CONTAINED I
73. el Description ou Descrip Cp Description T_P_L T Analog acquisition input F Addition Ta LAc Analog acquisition input F We Subtraction T_brakef_BR Analog acquisition input F Multiplication Confirm your selection with OK The calculation instructions are now shown in the IPEmotion user interface IPETRONIK GmbH amp Co KG 111 139 KS 4 SE Practical application examples a Mi OTI O N Mame Active Calculation instruction Unit Display Min Display Max Sampling rate F m Tobias Loma ve er ap eine 10 5 Hz K U L T brakef B medium d b General Formula Display T_brakeF_BR T_brakef_BL j2 fix 5 Select in the right view window the Unit and the Sampling rate In our example the unit is K for the temperature difference and C for the temperature average and the sampling rate is set to 5 Hz 6 In the second part you select the Storage group 1 branch in the left tree view All available channels are shown in the Available channels window Select the desired channels and click Selection or drag the channels into the right overview Included channels by using the Drag amp Drop function 7 Using the Saving tab you can define the format and edit a prefix e g Temperature acquisition Available channels Included channels Selection E All x Selection x All Mame Description Mame Storing rake a T T gt al eee TA 5 Hz E 5 Hz de 5 Hz T 4 5 Hz 125 5S Hz T E Lis q H d a Gene
74. ell as the return of the signal value into the set range Example for a signal which temporary exceeds the upper limit value and then returns back to a value in the set range 26 08 2010 02 38 09 Signal DIN 01 is above upper limit IPEmotion IPETRONIK GmbH amp Co KG 86 139 Working with IPEmotion Po eg MI OTI O N 26 08 2010 02 38 11 Signal DIN 01 is below upper limit Documentation in the measuring status file Every signal which causes a limit value violation is listed with the number of limit violations The file format is XML lt LimitViolationLists gt lt LimitViolationList signalName DIN 01 gt lt LimitViolations gt lt count gt 2 lt count gt lt LimitViolations gt lt LimitViolationList gt lt LimitViolationLists gt Limit value as constant Every limit value violation is immediately reported and logged The limit value violation is only reset if the signal returns into the set range by passing a hysteresis of 2 A hysteresis is calculated as fol lows Hysteresis upper limit lower limit 0 02 If one of the limits is not set the corresponding value of the displaying range is used Always control the value of the displaying range at activating the limit value controlling ana adapt them if required Otherwise the hysteresis can reach a value too high The standard values of the displaying range for floating point signals are 3 4E 38 ana 3 4E 38 Mame Active Unit Phys Min Phys Max S
75. ensor Min Sensor Max Sampling rate T FER D pa DIN o2 0 1 U 1 1 Hz DIN 03 o i o i 1 Hz DIN 04 CT o i o i 1 Hz DOUT 01 CT o i 0 i 1 Hz General Format Scaling Display Limit value Movalue Upper limit value 20 L Ga Lower limit value 0 Fix Min Max list Limit value as formula A formula can also be used instead of a fix value Example DIN 01 AND Ramp gt 15 26 08 2010 01 22 50 Signal DOUT 01 is above upper limit IPEmotion IPETRONIK GmbH amp Co KG 87 139 e Hz moton 26 08 2010 01 24 04 Signal DOUT 01 is below upper limit Name Active Unit Phys Min Phys Max Sensor Min Sensor Max Sampling rate 7 m gt e DOUT Of 0 1 0 1 10 Hz DOUT 03 o 1 o 1 1 Hz DOUT O o 1 o 1 1 Hz General Format Scaling Display Calculation Frequency output Limit value Upper limit value DIN 01 AND DIN 2 15 Lower limit value 0 Min Max list Defining limit values The limit value configuration takes place within the Acquisition main navigation tab Select in the left overview the Limit values function and click on Add limit value Cd To define the settings for the limit value properties proceed as follows I5 Select in the right window of the channel view the desired limit value You can find the Configuration tab in the window of the configuration dialog You have the following configuration possibilities a Channel Define the channel for the limit value by using the Channel selection dialog window V Com
76. ent value A single click increases decreases the current value by the smallest possible step width The longer you keep the mouse button pressed the more the step width increases The step width depends on the number of decimal places that have been defined for the channel Signals main navigation tab gt Display tab gt Formatting gt Decimal places Ii the number of decimal places is set dynamically option Automatic the value of an inte ger channel is increased decreased by one binary digit The maximum number of decimal places is set for channels based on floating point values If the focus is set on the alphanumerical element you can also increase decrease the values with the keyboard handling see Keyboard handling gt Alphanumerical display IPEmotion IPETRONIK GmbH amp Co KG 94 139 P motion Working with IPEmotion LED The LED visual element offers you the ability to define and visualize any number of status of analog as well as digital channels This functionality allows you to control the value range of the correspond ing channel at any time of measurement Every status is defined by a configurable value range The upper limit is a status property the lower limit results from the upper limit of the previous status The lower limit of the first status is the channel minimum The upper limit of the last status is the channel maximum A Double click on the element or the Properties entry in the
77. er than the channel frequency but a warning message appears at exceeding IPEmotion IPETRONIK GmbH amp Co KG 134 139 e Hz moton The expert mode allows you to change amplitude offset and frequency during a running acquisition by addressing the respective internal channels Furthermore status channels can be used which e g show the triggering status SE Name Unit Display Min Display Description 10 10 a Fal Calculations Jl Formulas d TT Variables Ampltude Damp gener L i Number mam Status Text ES Storage El Storage group 1 th Monitoring th Limit values d Analysis En FFTs H Control E PID controller Ta Function generators Displaying area A 8 Rectangle generator 1 4 e Max 1 GER Sawtooth generator 1 4 SS E Sine generator 1 4 Formatting Decimal places 0 OFfset Ramp generator 1 10 10 Frequency Ramp gener 10 10 General Display de Bea ri O CG DO HS Sleab HS Sea CH ee 1 ao RS Each of this 4 internal channels can be defined with the grid columns or the tabs Further grid columns are available with the Column Chooser function IPEmotion IPETRONIK GmbH amp Co KG 135 139 Ea l D SS E External IPEmotion automation interface MI OTI Q N 9 External IPEmotion automation interface The IPEmotion automation interface meets the criteria to expand and open up a wide range of application for IPEmotion It offers users with advanced programming knowledge the possibil
78. erature chan nel Pressure channel Index of fluid V_spec Temperature chan nel Pressure channel Index of fluid u_std Temperature channel Pressure channel Index of fluid s_std Temperature channel Pressure channel Index of fluid c_vol Temperature channel Pressure channel Index of fluid h_pres Temperature chan nel Pressure channel Index of fluid subcooling Temperature channel Pressure chan nel Index of fluid subcooling Temperature channel Pressure chan nel Index of fluid The following chapter shows how to execute an enthalpy calculation based on fluid temperature in C and pressure in bar 1 Select the Acquisition main navigation tab and the Add calculation IN function 2 Open the Formula tab and the Formula editor fi and select the desired calculation instruc tion Click OK to confirm the formula 3 Change to the View main navigation tab and click on Start displaying im You can now read your momentary value from the respective visual element but this value is not recorded and stored IPEmotion IPETRONIK GmbH amp Co KG 127 139 e Hz moton 4 8 1 2 To record and save the data click on Start storing The acquired data is now stored in the application data At using the standard installation the data can be found in Windows XP C Documents and Settings xx My Documents IPETRONIK IPEmotion Windows 7 C Program Files Common a ee To stop the data disp
79. eseaeeesausessaeeesseeeseaees 36 94 An Ce re ACCC SS E 37 Di Ter LEE HEEN tege ees 38 e We e GE 38 50 OCUN AE ME 40 SGT Lancing FEMO ET 40 PEMOHON LICENSING DE 40 Belleg Ile el 40 9 6 2 The automatic hardware deiechon 42 Connect hardware and repeat deiechon 42 Guided and configuration step by step User oudancel 43 Automatic configuration and displaying Of data 47 Manual configuration of signals ACQUISITION ANd displaying nns0nneennnnsennensnnnnsnnnnnsnrnesenrnnsnne 47 Change into simulation mode 48 ING ACTON EE 48 5 7 Three quick ways to a precise acquisition ccceecceececeeeeeeeeaeeeese cess eeseueeseeeeaeeesseeeseeesaneess 49 5 7 1 The automatic copnfguraton siian enian NEE Er EAREN Er ERATE NEA 49 5 7 2 The manual copnfguraton 50 5 7 3 The configuration using a signal database 52 6 Working with IPEmotion E 53 6 1 POOO EE SE 611 CONTMQUIING Project dn Le erisir teased skanedsemmandavainsaiuedatanmmannuededated 54 IANS EE 55 IPEmotion IPETRONIK GmbH amp Co KG 3 139 cone IP Z motion SUC NS eE A E E E E E E EE EEEE ERE 56 TED SCR OIS E St OZ Eeer 57 6023 COMMNOUPANOMIAIOG S eers E E E EE AEE Ee E EEA 58 6 2 4 ER ET ehn tee er He EE 59 ZDON SC ANA acc ti saa sets eb Sed cdma cabin uit ca ni alos dno Fed sea i cts alist 60 Free 2 point SCAMING BE 60 ACO OSS SCANS EE 60 MUONE SCAG DE 60 EE AEE EEA oi O O AE E E E E O EA N NEE EA TENE E ET 60 Afi BS e E 60 6 2 5 Using th
80. est DAQ list is used If no DAQ list is defined the Polling DAQ list is used You can also explicitly assign the signals to a single DAQ list To do so show the DAQ list column within the import dialog This mode allows to directly assign the DAQ list to be used to the signals Proceed as follows Select the Column Chooser entry within the A2L import dialog from the context menu of the column heading Es Drop the DAQ list entry from the Customization dialog to the desired position within the col umn heading This action automatically removes the Sampling rate column If you want to activate more signals than available in a DAQ list the overfilling is indicated as a warn ing in the view tree At overfilling a DAQ list the corresponding signals are automatically deactivated after import PEmotion offers you the ability to check the filling level of the DAQ lists B Open the context menu of the desired DAQ list in the tree view and open the Import proper ties entry The import properties show an overview about e g the percentage filling level or the number of free signals for a specific data type If the DAQ list is overfilled the number of signals to be re moved is indicated with a negative figure Please note that the import properties are only available with the Expert mode Activate this mode within PEmotion options a Basic settings gt Expert mode Diagnosis Using the function Import in PEmotion you ha
81. field J IPEmotion Licensing There are 30 days left For activation IF you do not activate the license after the expiration date the basic license will be enabled The registration key For unlocking is License information Developer Version Automation Macro recording Import CANdb Import AZL Signal libraries 5 Exit the PEmotion Licensing dialog with Close function T The IPEmotion Licensing dialog can also be opened by using the About gt Licensing From IPEmotion V01 05 on you have the ability to license PEmotion with a dongle The dongle is a special USB flash drive which automatically starts the PEmotion installation at connecting to PC Single license dongle The dongle includes a single license for PEmotion If you have already installed PEmotion a manual input of the license is required see steps 3 4 The license is stored in the directory generated by the dongle The dongle must always be connected to PC at working with IPEmotion If the dongle is re moved during operation PEmotion is closed too with delay Multiple license dongle The multiple license dongle includes at least 1 license and offers a decisive advantage the dongle must not remain connected with the PC at working with PEmotion Furthermore you can return a license to the dongle that is no longer required The IPEmotion software is then executed as Basic edition Start IPEmotion Es Connect
82. find useful information for a safe and clean application of the software i About Get an overview of the software version and license information of the PEmotion software 5 5 The main navigation tabs The main navigation tabs allow a quick activation of the different main functions of PEmotion A tab displayed in light blue indicates an active function IPEmotion is designed to follow the main navigation tabs from left to right Use this reasonable order like a read thread which guides you step by step to a successful acquisition Data manager Project Define your general user defined project data Signals Configure the connected acquisition systems and hardware modules Acquisition Configure the desired storage groups and channels View Take a measurement defined by the connected hardware modules and the set configurations Data manager Manage your stored acquired data in all the supported formats Analysis Visualize your channels with diagrams Scripting Automate your acquisition sequences Info Get a basic overview and general support 5 5 1 Info The chapter offers a basic overview of the I PEmotion software In addition it shows useful advices and tips and tricks on how to use IPEmotion IPEmotion IPETRONIK GmbH amp Co KG 38 139 coun IP 2 motion The view Info is divided into the following menu points 7 Welcome Release Notes only in English Red thread The main me
83. fset scaling A Multipoint scaling STG Es Active Passive sensors Es TEDS Sensor The section Channel settings offers you to define the physical unit of the channel IPEmotion IPETRONIK GmbH amp Co KG 59 139 Working with IPEmotion P MI OTI O N 2 point scaling The acquisition range is already set by the channel properties Define the physical range Free 2 point scaling In addition define the ordinates in the acquisition range Factor Offset scaling Define the calculating and scaling factors within the linear equation Multipoint scaling Define individual nodes for nonlinear sensor scaling with the respectively assigned physical values The nodes can be entered manually or the current measurement value can be requested from the device for every node A Use the character to add or delete a node within the overview Physical value and Acquisi tion value To accept the acquisition value a previous test acquisition is required The Apply measured value button is then activated The multipoint scaling is only supported for acquisitions directly in IPEmotion STG Define your STG values for STG capable channel types to start an automatic calculation of the acquisition range with additional strain conversion You can additionnally check your configured STG bridge Click on the Calculate optimal shunt resistance button or the Shuntcheck button to run an acquisition This result is compared to the precalculated exp
84. g the desired channels from the window Loaded measurement files into the chart by using the Drag amp Drop function PEmotion offers you the ability to visualize the single data in details by using the following zoom functions A Move W Move a single axis or both A Stretch compress el Zoom in or out the displayed area of a diagram B Mark QR Mark a specific area within the chart to enlarge this section of the diagram You can undo all zoom function and reset the displaying area to the original condition by using the Py A button Original area LGS 6 6 1 x y y t chart IPEmotion offers you the ability to add the current ranges of the y axes x y and y t chart to the con figuration To do so open the context menu of the chart with the right mouse button and select the Save axis offset entry If you do not select this function the chart axes are set to default values after loading the configuration IPEmotion IPETRONIK GmbH amp Co KG 101 139 e Hz moton 6 6 2 Keyboard handling PEmotion allows a continuous keyboard navigation for the analysis tab You can use the following keyboard navigation for analysis purposes General B Page Up Page Down Change the selected page A Tab Focus the next element A Tab Shift Focus the previous element Ctrl C Copy the element Ctrl V Paste the element a Ctrl X Cut the element Delete Delete the element Content tree Ctrl gt 4
85. h the calculation formula Op1 DeltaT Syntax INT UP Operand Examples INT UP Channel 1 sends the upper integral with the current value of Channel 1 LIN Runs a linearization with the defined nodes Between 2 and 16 nodes can be defined Please note to enter the input values monotonously rising Syntax LIN Operand x Node 1 y Node 1 x Node 2 y Node 2 Examples LIN 0 5 0 0 1 2 2 6 gt 1 LIN 1 5 0 0 1 2 2 6 gt 4 MAJOR Sends the greater value of Operand1 and Operandz2 Syntax MAJOR Operand1 Operand2 IPEmotion IPETRONIK GmbH amp Co KG 80 139 e Hz moton Examples MAJOR 6 23 1 9 gt 6 23 MAJOR 2 41 4 1 gt 2 41 MAX Detects the operator s maximum The calculation uses all valid values Syntax MAX Operand Examples MAX Channel 1 sends the greatest of all values of Channel 1 over all valid values MEAN Sends the operator s average The averaging uses all valid values if the optional number of values is not defined or the number of values is 0 If a number of values unequal 0 is set the average calcula tion runs about the defined number of Syntax MEAN Operand MEAN Operand Value of numbers Examples MEAN Channel 1 sends the average of Channel 1 over all valid values MEAN Channel 1 10 sends the average of Channel 1 over the last 10 values MIN Detects the operator s minimum The calculation uses all valid values Syntax
86. he Start displaying P button to start displaying the acquisition data DD zetia x Be wi OO IPEmotion Le Project Signals Acquisition View Data manager Analysis Info Ge o o SG PS pe Bars pm r_a te 2 e Selection Start displaying Start storing Addpage Al chan Fix web chart EE deis Screen pages Elements 4 Click on the Start storing button to record the acquisition data 5 7 2 The manual configuration The manual configuration offers you the ability to make specific modifications of the acquisition devices CANbus and active If this is not the case connect the desired devices to the CANbus oi your computer The manual configuration function requires that the hardware is connected to the First of all define your project and enter in the Project window a project name and a user name afterwards IPEmotion IPETRONIK GmbH amp Co KG 50 139 a P moton Project Signals Acquisition Talat L mM em ry oe AUTO es New Opening an e Save ae Automat User guidance existing File generation File Configuration Mame Value Chassis ID Vehicle ID Project name Project manager name E Mail address project manager User E Mail address user User login ZIN Description In the Signals menu is the command window Configuration You can now select the active hardware platform eT aie Ko A IFEmoton Signals Acquisition View Data manager Analysis Info Se t gt s 0O E hdd sy
87. he return value is 1 Less than 3000 lt 2 return Temp_1 lt Temp_ 2 value 0 200 lt 4000 return value 1 The value left to the sign is compared with the value2 right to the sign If value1 is less than value2 the return value is 1 Greater equal 30 gt 5 return Temp_1 gt Temp_ 2 value 1 40 gt 50 return value 0 The value left to the sign is compared with the value2 right to the sign If value1 is greater than or equal to value2 the return value is 1 Less equal 30 lt 5 return Temp _1 lt Temp_ 2 value 0 50 lt 50 return value 1 The value left to the sign is compared with the value2 right to the sign If value1 is less than or equal to value2 the return value is 1 PREV Prev Thermo_cha PREV Thermo_channel2 nnel2 The PREV function allows the displaying of prior measuring values After having selected the channels the values of the previous cycle are shown n n 1 SIN COS TAN SINH COSH TANH ASIN ACOS ATAN All trigonometric functions are calculated in radians 0 2 Pi At invalid values NoValue invalid is written into the result channel NOT signal A 0 NOT Status_1 Output 1 Signal A 1 Output 0 The output inverts the logical status of the input Status of previous logical channels can also be inverted AND Signal A AND Signal B At least two channels are compared OR Signal A OR Signal B At least two chan
88. i as Guided and configuration step by step g EN Manual configuration of signals acquisition and displaying C Change into simulation mode X Mo action Deactivate automatic hardware detection at start OK Cancel 5 No action Select the No action option and confirm with OK Select the No action option in combination with the activation of the setting Always operate the selected action and PEmotion operates an automatic hardware detection at every start In this case the Automatic hardware detection screen is not shown again Confirm with OK Please note that this option is only available if no hardware is connected or an automatic detection of the connected devices was not successful IPEmotion IPETRONIK GmbH amp Co KG 48 139 a P moton Automatic hardware detection The automatic hardware detection could not Find any connected hardware what should be your next step Which action do you wank bo run E Connect hardware and repeat detection f z Guided and configuration step by step g SY Manual configuration of signals acquisition and displaying CO Change into simulation mode Mo action Deactivate automatic hardware detection at stark OK Cancel 5 7 Three quick ways to a precise acquisition You generate configurations with PEmotion with little effort and acquire data with high precision IPEmotion offers you three different possibilities to generate configurations A Automatic configur
89. icccinsssicnceansrncuaentdiatmeduitiedienmntdeuaddsveinueradetwadedthiiecnaliduenduasselsenasaensdennsde 13 WI e Te de E 14 3 1 IPEmotion editions E 14 4 Setting up and reMOVINGA 2ccceseceeeeeeeeecesecenseenseeensecesesenseeenenes 17 4 1 System requirements cccceeececcssseeeceseeecseaeecceasceecsuueeecsaeeecseaeeeessageeecsaeeeesaueesssageesssgeeeees 17 a ARAIN EE 17 ATA POUS EE 17 Aho ONA aE A E AE E E 17 4 2 HSNI TE EVAN EE 18 4 3 IPEmotion License ic airsieat cisrsticiredewisctnasiaisuisemasinsit njoticelex amid Vaan fas deeds Scetsdevenindens duadelaienad ecb nest seesunbeaakeens 21 4 3 1 Demo version E 21 Aa BaSe Verl ON EE 21 4 3 3 Versions against charge 21 dod Cening IFE MONON E 22 Single license dongle EE 23 Multiple dee ele VE 23 4 4 Uninstalling MP Gi ee EE 25 IPEmotion IPETRONIK GmbH amp Co KG 2 139 sun P moton 5 Getting SAIC crgncosanes ccc canceeeceiees sae ncoanncssacrescocsenescaceressecednarcamesesen 27 5 1 TOC EE 27 5 2 The application button 27 5 3 The application un TEE 27 oL Bel CSS er EE 28 Field MN te tet ce mos st eae dm doe ce tebe he tanec a date haan dae deen peta wisn tet 29 S18 6 EE 30 Field commands in layout designer nren rrente 31 e NEE 31 OG re mmm Ee Le MEOPUON EE 31 PPS OUIC IY ME 32 BS ASUS SUN EE 32 PRS ene SS Biz Baler Let 33 EE 33 DIFOCIO EE 34 Bu 34 aalt 34 Side EE 35 5 3 4 Creating a support file cece eccceceeeeceeeeceeeeeseeeeesseeeeseaeeceaeeeseaee
90. ignal 11 0 12 0 13 12 36 0 58 1 6 0 Name Saw 12 0 13 0 14 13 37 0 63 i 6 5 Description 13 0 14 0 15 14 36 0 68 1 7 0 Value count 17595 14 0 15 0 16 15 35 0 73 1 7 5 Read only mi 15 0 16 O 17 16 34 0 78 i 8 0 BEE S 16 E 018 i ES 0 83 i gp SE SE 17 0 18 0 13 18 32 0 88 1 9 0 Minimum physikalis 0 005 F 16 0 19 Oe ue S de e z 7 2 6 Displaying and analyzing data The Analysis main navigation tab offers you the ability to visualize and analyze your data by using a y t chart 4 Sample iad ER Ni Sawtooth 1 E Ni Sawkooth 2 50 Rectangle 1 Ni 0 Ni Sine 1 0 f 20 40 60 80 100 120 140 160 f Sawtooth 2 5 0 5 0 20 40 60 80 100 120 140 160 I PEmotion offers you the ability to visualize the single data in details by using the following zoom functions Move W Move a single axis or both B Stretch compress Zoom in or out the displayed area of a diagram En ES Mark QR Mark a specific area within the chart to enlarge this section of the diagram You can undo all zoom functions and reset the displaying area to the original condition by using the button Original area IPEmotion IPETRONIK GmbH amp Co KG 115 139 l Do weg Practical application examples M OTI O N Furthermore you can use the following keyboard navigation for analyses Y Change between the screen pages Charts Measuring cursor Move the measuring cursor on the active graph by exactly one value
91. ignal form should be used at creating the function generator The current version offers the following types of function generators a Sine Sawtooth A Rectangle A Ramp from file The from file signal form can output any signal course This file must be a measurement file supported by IPEmotion from which the first channel is used If more than one channel is included an info mes sage is output Depending on the function generator type variables like frequency offset and amplitude can be de fined as constants The activation of the expert mode see Options gt Basic settings allows using these variables as internal channels which can be changed during running acquisitions IPEmotion IPETRONIK GmbH amp Co KG 133 139 scutes P moton Use function generators The Acquisition main navigation tab shows the function generators within the tree structure of the setup area Control A ALEC REBEXREBEBEX Ber azwsook Project Signals Acquisition Vie Dats manager Analysis G ie OT 4dd calculation Add storage Add limit Add FF Add signal Short tnr Details group valge generator de Elements Control View Name frie Output cha A ai Calculations e m JE Formulas a ER Storage A Storage group 1 a tE Monitoring WE Limit values as e Analysis Ki FFTs a RR Contra e FID controller ee DA OO ra OO ra OO ra OO rs Wo Function generators General Operating Output Signal Ackive
92. igurations Trace files NET C lf you have any problems while working with IPEmotion send us this support file at Ssupport ipemotion com 5 4 The quick access bar The quick access bar is integrated in the title bar and contains functions that are frequently used Each of these functions is displayed as an icon The position of the quick access bar can be customized by the arrow symbol D SES v Es Be web 2 New Create a new file GC Open Open an already existing configuration Save Save the current file s Save as Save the current file s with a new name E Automatic generation Automatically generate a configuration by reading the connected devices for measuring and visualizing the signals Quick print Print the current view directly on the standard printer This function is implemented with limited functionality oi Cut Move the selected elements into the clipboard Copy Copy the selected elements into the clipboard Paste Enter the elements from the clipboard IPEmotion IPETRONIK GmbH amp Co KG 37 139 coun Hz moton ka Delete Delete the selected elements Ni Clean Delete all subordinate elements Undo Undo your last action s H Redo Redo previously undone actions step by step 99 Properties Open the configuration dialog Vi Options Define user defined properties ap Help Open the I PEmotion pdf documentation where you can
93. ility to use a log p h diagram based on the REFPROP climate package within the analysis The diagram essentially includes the same configuration functionality like the diagram in the view tab online Please find in the following the most important differences and updates A Support of several circuits Es Slide control cursor for displaying the circuits at any time os Support of Replay functionality The diagram allows to display refrigerant circuit data offline and analyze the data The standard dia gram includes in the lower area a selection possibility of the desired circuit and a slide control to dis play any time The desired circuit can also be selected within the configuration dialog in the Circuit section 100 10 FF TAO EE SAT ARR AT i oR ee A Kei Ke ar am RT ee eR Ge dee ae ey aire Geh d d d d i 3 0 01 100 150 200 250 Circuit 1 Steam content Temperature Entropy Dew line Boiling line Circuit 1 X Add channels You can add enthalpy and pressure channels correspondingly to the process in the log p h diagram online Enthalpy channels can be created in the main navigation tab Acquisition with a formula and following storage see chapter Run climate calculations Channels can additionally be added with creating a suitable offline formula Context menu The following overview shows all additional options of the context menu as well as all options with changed fun
94. in the configuration dialog window Define the desired sampling rate In our example it is 100 Hz 2 Activate the desired channels in the right window of the channel overview and select the desired unit In our example the first two channels are selected and the unit is bar 3 You can find the General tab in the configuration dialog window Enter any name for each channel in the Name field In the Description field you have the ability to edit additional information In our example the following descriptions are defined A p_CA charge air pressure with additional description Charge air pressure Company Druck pm 1400 Sn S02024 02 A _AC air conditioning pressure with additional description AC not tight Danfoss MSB 3000 10206174 IPEmotion IPETRONIK GmbH amp Co KG 116 139 KS Be Practical application examples a Mi OTI O N 4 By using the Scaling tab you can define the physical range sensor range and sensor mode e Enter the values in the channel view within the Phys Min and Phys Max column or enter the values in the Scaling tab within the Physical range Min and Max field Led Enter the values for the sensor range 6 Select Voltage including excitation as Sensor mode In our example the following values for the channel p_CA are defined a Physical range 0 16 bar Sensor range 0 5 V The sensor range was adjusted to get a higher resolution By using the scaling calculator and the 2 point scaling or th
95. ing runtime versions A runtime version is a user defined software version which cannot be changed and which is protected against access by the end user For creating IPEmotion runtime versions you need the Developer edition With this IPEmotion runtime version you have the ability to individually personalize graphical user interfaces The menu structure including the ribbon can partly or completely be locked During creation of a runtime version a file with irc extension is generated This file can also be used with the basic version of IPEmotion after having filed it in the program folder e g C Program Files IPETRONIK IPEmotion Vxx xx xx Runtime irc Please note that this configuration cannot be modified You can create as many runtime versions as you want All configuration data as well as all macros and scripts which have been created using the internal or external automation interface are firmly linked to the PEmotion software IPEmotion IPETRONIK GmbH amp Co KG 137 139 van Hz moton 10 IPEmotion Plugin IPEmotion is a software for acquiring managing and analyzing data The signals are generally acquired by using external acquisition systems For using any acquisition devices I PEmotion offers a standardized interface This interface is called Plugin A plugin interface is a component which is generally made of several DLL files Dynamic Link Libraries as well as description files in XML format To allow a
96. ion Analysis Automatic configuration Directories Manual configuration Units Basic settings Select a preferred configuration type A Hardware configuration A Signals configuration with selection of the signal database Activate or deactivate the options Accurate acquisition chain required and Expert mode E IPEmotion options Frequently used Basic settings Appearance Preferred configuration type e Hardware configuration O Signals configuration Data manager Signal database Analysis Accurate acquisition chain required _ Directories Units Expert mode _ Hotkey Automatic service administration Plugins IPEmotion IPETRONIK GmbH amp Co KG 32 139 a P moton Appearance Define your view settings according the following listed points Es Language selection a Skin selection Es Displaying tooltips Es Font size of the visual elements A Transparency of configuration dialogs 0 30 percent Activate or deactivate the use of the Windows standard dialogs for the file and directory selection The Open file dialog is skin enabled i e it is shown in the selected user interface type ES IPEmotion options Frequently used Language selection English MM Basic settings Appearance Skin selection Blue k Data manager Displaying tooltips O Fast Analysis Normal Directories OFF Units Font size of the visual elements J Hotkey PlugIns Transparency of configurat
97. ion dialogs 15 Ba Use Windows standard dialogs _ Time channel format Relative O Absolute Data manager Define the Time channel format as Relative or Absolute This setting is currently not supported for the export into external formats and activate or deactivate the option Merge time channels with equal acquisition rate Ss IPEmotion options Frequently used Merge time channels with equal acquisition rate 1 Basic settings 3 Connect data at loading 1 Appearance Analysis Analysis Select the points per diagram graph Define if all signals are considered in the analysis diagrams at drawing the graph or only the samples Move the bar accordingly to the preferred speed or quality IPEmotion IPETRONIK GmbH amp Co KG 33 139 a P moton ES PEmotion options Te Ely al f ae ed Data display in charts Basic settings p Speed Quality ppearance Data manager Analysis Use extended acqu window Directories IPEmotion additionally offers to the selection of the listed directories the possibility to import the user settings language selected columns as well as the plugin options The user settings are stored in the IPEmotion application data in the Settings xml file and the files of the UserSettings sub folder Please note with Settings xml that the directories for the user data directories and the applica tion data directories are stored in the same file The p
98. ired type of installation With the standard installation you can select between the standard installation for the logged in user and a standard installation for all users If you select the Standard installation skip the following point Destination folder Click Next to continue with point 8 If you select Custom you can choose user specific settings according to the destination folders Click Next to display the following dialog Destination folder Due to the security model of Microsoft Corporation related to NET applications the installation of PEmotion on a local drive is recommended According to the Microsoft conformance guidelines for Windows applications the IPEmotion files are installed to the default locations that are specific to the operating system and language Accept the default installation location for PEmotion the application data and the user data To select another location click Change After you have specified the location for the IPEmotion installation click OK to return to the Destination folder screen Click Next to continue 8 Ready to install the program This screen indicates that PEmotion is ready to install Click Install to start the installation 9 Installing PEmotion A progress bar is shown during the installation process 10 Installing hardware system s Follow the instructions of the installation wizard to install the selected hardware systems 11 InstallShiel Wizard Complete
99. itch IPEmotion IPETRONIK GmbH amp Co KG 97 139 Working with IPEmotion P VM OTI O N A Space bar Change between the status On and Off of the output Action Es Enter Execute program script 6 5 Data manager XEBec asi ooh IPEmotion Project Signals Acquisition VIEW Data manager Analysis Info SS SS Fa H _ Loaded D Lempoue port x Fe SE SC Measurement Files Measurement Files External analysis View Loaded measurement Files Detailed information on the loaded measurement Files Name Inder Sawbooth 1 Sawkooth 1 Sawtooth 2 4 Sawbtooth 2 Rectangle 1 4 Rectangle 1 Rectangle 2 a 4 E Sample iad mi Sawtooth 1 Sawtooth 2 Rectangle 1 Dt D 46 Om 47 0 13 46 0 18 45 0 23 44 0 28 43 0 33 0 08 0 09 42 0 38 Omg 0 1 41 0 43 0 10 DI 40 0 48 general 0 11 0 12 39 0 53 Fam 0 12 0 13 38 0 58 Name 0 13 O 14 SH 0 63 Description st 0 14 0 15 36 0 68 Value count GZ E 0 15 0 16 j 35 0 73 Suada 0 16 0 17 34 0 78 0 17 0 18 E 0 83 0 18 0 19 E 0 88 0 19 oa 19 31 0 93 om 0 03 0 03 0 04 0 04 0 05 0 05 0 06 Om 0 07 Oms 0 08 fe 1 5 2 0 2 5 3 0 4 5 4 0 4 5 5 0 5 5 4 0 6 5 7 0 7 5 S S 4 0 FSi P Rectangle 2 4 E I sl Sine 1 mo oO d Oh A bh Go ba 1 21 sl 4 5i D z e 2 Properties component Unit LG i _ Data type SCH ik e e e e e e e e k O C
100. ity to amend the functionality of the PEmotion software and to embed your own applications into PEmotion and vice versa The advantage for the user is the ability for optimization of working and distribution processes As an example the automation of measuring sequences can be mentioned With the help of the PEmotion automation interface simplified proceedings are provided thus reducing and minimizing the use of time The external IPEmotion automation interface out of process provides the complete remote controlling of PEmotion and is considered an object oriented programming interfaces It uses interface indicators and is therefore more flexible than the function oriented programming interfaces Furthermore the external automation interface contains an interface description in the form of a type database for the access to the available functions data structures and sub programs of PEmotion You can find further information and a detailed description of the PEmotion COM automation interface in the documentation IPEmotionCOM chm Please note that a CHM editor is required for opening the CHM file under Windows Vista 9 1 Advices for the IPEmotion editions The external IPEmotion automation interface is an optional software component and is with the Developer edition included in delivery With the Developer edition you have additionally the ability to create runtime versions For more information about runtime versions please c
101. l field commands can be used together separated by space The following table shows all currently available IPEmotion field commands System specific Date and time DATETIME format Date and time format Date time formatting as follows format m dd gt 9 26 Online specific Different project prop PROJECTPARAM key The global project properties defined by erties the user are available key key of the project property from Pro jectPar e g SerialNumber IPEmotion IPETRONIK GmbH amp Co KG 29 139 a Hz moton Analysis specific Different project prop DATAPROPERTY key The project properties of the measurement erties noDataGroup files defined by the user are available key key of project property from parame ter field or header of file noDataGroup define number of data grou p from data pool for defining the project property If none Is defined DATAPROPERTY key the first is chosen PEmotion offers global project properties You have access to any project property with field com mands Please note the following specification concerning the formatting and the availability of field commands Ifa field command is entered incorrectly the original text remains Ifa field command is invalid but has a correct format the text turns into Error Ifa field command is valid but contains no data the text turns into No data Es Field commands are partially context sensitiv
102. laying click on Stop displaying Je Log p h diagram online View The log p h diagram is used for visualizing refrigeration processes and plots the values Pressure p and Specific Enthalpy h against each other Any channels formulas and variables can be added to the visual element but no spectra Please find the following most important features of the visual element in clear list A Complete configuration via graphical user interface e Only one refrigeration process can be displayed per instrument A Configuration of a reference graph A Configuration of background graphs Support of various refrigerants with fld and ppf extensions that are provided by REFPROP Use the log p h diagram The following chapter shows how to configure and use a log p h diagram for visually displaying meas ure points The View main navigation tab offers the ability to graphically display the value 1 IPEmotion Select the Elements section in the main navigation tab View and the log p h diagram The properties of the visual element can be defined with the context menu of the right mouse but ton or a double click onto the element Select the desired refrigerant within Properties General Configure the circuit and define any number of measure points The enthalpy and pressure channels can be added to the chart in turn see chapters Run climate calculations Add chan nels Click on Start displaying je display the current cir
103. lement Ctrl C Copy the element Ctrl V Paste the element 7 Ctrl X Cut the element s Delete Delete the element Content tree Ctrl la Show hide subnodes E Je Select previous next node Shift Die Add previous next node to selection A Ctrl A Select all IPEmotion IPETRONIK GmbH amp Co KG 96 139 e Hz moton Ctrl move node with mouse Cut node and add to destination node A Shift move node with mouse Cut node and add above destination node Alt Gr move node with mouse Cut node and add below destination node Page Up Page Down Select first last node List of channels Select previous next node Shift Die Add previous next node to selection Ctrl A Select all Page Up Page Down Select first last node List of pages 5 Select previous next node Shift Die Add previous next node to selection Ctrl A Select all Page Up Page Down Select first last node Alphanumerical display Enter Open the input field Enter input field open Set value and close input field Esc input field open Close input field and do not set value spin buttons active Increase decrease the value A spin buttons active Increase decrease the value Slider Es Increase decrease the value A 4 Increase decrease the value of a horizontal slider 1 F Increase decrease the value of a vertical slider Sw
104. librationValidMonths type Int32 gt 6 lt calibrationValidMonths gt lt calibrationValidDays type Int32 gt 10 lt calibrationValidDays gt lt CalibrationValidDuration gt lt physicalMin type Double gt 0 1 lt physicalMin gt lt physicalMax type Double gt 19 8 lt physicalMax gt lt outputMin type Double gt 0 01 lt outputMin gt lt outputMax type Double gt 1 98 lt outputMax gt lt SpecificSensor gt The sensor names sensorName must be unique The current version of the sensor data base includes the sensorlTypeld entry IPEmotion IPETRONIK GmbH amp Co KG following defined values for the 63 139 Working with IPEmotion UNKNOWN 0 DisplacementTransducer 1 LoadCell 2 Shunt 3 CurrentTransformer 4 VoltageTransformer 5 Force Transducer 6 PressureTransmitter 7 AbsolutePressure Transmitter 8 GaugePressure Transmitter 9 DifferentialPressure Transmitter 10 FlowRate Turbine 11 PistonFlowmeter 12 ScrewFlowmeter 13 VortexSheddingDevice 14 Accelerometer 15 TriAxialAccelerometer 16 TorqueMeter 17 Counter 18 StrainGauge 19 LVDT 20 StrainGaugeBridge 21 TemperatureSensor 22 IP Z motion Displacement transducer Load cell Shunt Current transformer Voltage transformer Force transducer Pressure transmitter Absolute pressure transmitter Gauge pressure transmitter Differential pressure t
105. lues are not recorded and stored To record and save the data click on Start storing The acquired data is now stored in the application data At using the standard installation the data can be found in Windows XP C Documents and Settings xx My Documents IPETRONIK IPEmotion Windows 7 C Program Files Common Files IPETRONIK IPEmotion StorageData To stop the recording click on Stop storing Xe Click on Save L to store the made changes and configurations in the current file Check the respective made steps of the IPEmotion User guide and close it with OK 7 2 9 Managing the data The Data manager main navigation tab offers you the ability to manage and analyze the acquired data and properties Open the desired dataset iad file with the Load Co button IPEmotion IPETRONIK GmbH amp Co KG 114 139 Za Practical application examples P ges Mi OTI O N Loaded measurement files Detailed information on the loaded measurement Files Name View Index Sawbooth 1 Sawbooth 1 Sawbooth 2 Sawbooth 2 Rectangle 1 RPectangle 1 Reckangle 27 2 A Sample iad dw i 0 02 0 03 z 46 0 08 0 fe dv Sawkooth 2 2 0 03 0 04 3 47 0 13 0 1 5 MA Rectangle 3 0 04 Om 4 46 0 16 o 2 0 Af Rectangle 2 4 0 05 0 06 z Ap 0 23 0 WS su Bine 5 0 06 0 07 e 44 0 28 i 3 0 e 0 07 0 08 7 43 ES 0 3 5 7 0 08 0 03 a 42 0 38 0 4 0 a 0 03 0 1 d 41 0 43 0 4 5 Properties d 0 10 0 11 10 40 0 46 1 5 0 pe or 10 0 11 0 12 11 39 0 53 1 5 5 ee S
106. lugin options are stored in the IMO files in the plugin folder of the application data Fa PEmotion options Frequently used Basic settings ee a EEN Define the preferred directories For opening and saving files These directories are proposed in the Open File dialogs Appearance Data manager Analysis Configurations C Programme Gemeinsame Dateien IPETRONIK I PEmotion Configuration Directories Project data C Programme Gemeinsame Dateien IPETROMNIKIPEmotiomiProjectTemplate Units Hotkey Import 2 ProgrammeGemeinsame Dateien IPETRONIKVIPEmotion Import Export C Programme Gemeinsame Dateien IPETRONIKIPEmotion Export Plugins Units Get an overview according the common physical values and their respective unit and edit them 5 F IFEmotion options Physical Factor Unit a Basic settings Appearance Mass kg Daka manager Time 5 Analysis Electric current D Directories Temperature ar oe Molar amount mol Hotkey Light intensity cd Hotkey Send specific commands to PEmotion by using the hotkeys es TPEmotion options Frequently used Command Hotkey Entry Basic settings gt Appearance Project File Save Controls Data manager Seneral Linda Contrat Analysis General Redo Control Directories GenerakCut Controlt s Units General Copy Contral C Hotkey General Paste Contrat Plugins EE ee Seel ell E IPEmotion IPETRONIK GmbH amp Co KG 34 139 a P moton PEmoti
107. me ipetronik com User login ER Description Practical application data r LS IPEmotion user guidance KROn 0 RE Build 6738 Project Project W Signals Acquisition K view a System status It is recommended to save your configuration to avoid potential data loss Click on Save under E Select the desired directory and enter any name Confirm with Save The selected file name is now displayed in the title bar of the IPEmotion user interface Select the next step Signals to continue IPEmotion IPETRONIK GmbH amp Co KG 108 139 l Do en Practical application examples M OTI O N 7 2 2 Configuring modules and channels All connected and detected devices with the respective available channels are shown in the main navigation tab Signals By using the Add system or Add component button you have the ability to amend the configuration with additional systems or modules Proceed as follows 1 IPEmotion Select in the left tree view for instance the first module M THERMO 16 You can find the General tab in the window of the configuration dialogs Define the desired sampling rate In our example it is 5 Hz Activate the desired channels in the right window of the channel view and select the desired unit In our example the first 15 channels are selected and the unit is C You can find the General tab in the window of the configuration dialogs Define any name for each channel in the Name field In the Des
108. midi lt sensorName gt IPEmotion IPETRONIK GmbH amp Co KG 62 139 Working with IPEmotion lt sensorlypeld type Int32 gt 3 lt sensorTypeld gt lt sensorType type String gt Shunt lt sensorT ype gt IP MOTION lt sensorManufacturer type String gt GIGATRONIK lt sensorManufacturer gt lt physicalUnitName type String gt A lt physicalUnitName gt lt physicalMin type Double gt 0 lt physicalMin gt lt physicalMax type Double gt 20 lt physicalMax gt lt outputUnitName type String gt V lt outputUnitName gt lt outputMin type Double gt 0 lt outputMin gt lt outputMax type Double gt 2 lt outputMax gt lt UserProperties gt lt UserProperty gt lt propertyName type String gt Working temperature range lt propertyName gt lt propertyValue type String gt 40 85 C lt propertyValue gt lt UserProperty gt lt UserProperty gt lt propertyName type String gt Precision lt propertyName gt lt propertyValue type String gt 1 lt propertyValue gt lt UserProperty gt lt UserProperties gt lt SpecificSensors gt lt SpecificSensor gt lt serialNumber type String gt lt serialNumber gt lt SpecificSensor gt lt SpecificSensor gt lt serialNumber type String gt SN 1 lt serialNumber gt lt calibrationDate type Date gt 2007 10 01 lt calibrationDate gt lt CalibrationValidDuration gt lt calibrationValidYears type Int32 gt 0 lt calibrationValidY ears gt lt ca
109. motion exe with AS v gn parameters A Windows Silent Setup cannot run other setups in silent mode the plugins must therefore be installed as silent too Setup IPEmotion Plugin IPETRONIK LOG exe S v gn Setup IPEmotion Plugin IPETRONIK CAN exe S v gn LOGGER Plugin setup copies LOG2PC Core into Temp directory and installs LOG2PC Core in Silent mode which must also be installed separately Setup LOG2PC Core exe S v qn CAN Plugin setup copies CAN Server into Temp directory and installs CAN Server in Si lent mode which must also be installed separately msiexec i IPETRONIK CAN Server msi gn If directories are used which differ from the standard directories the respective property has to be set INSTALLDIR Directory for programs INSTALLDIR_USERDATA Directory for user data INSTALLDIR_APPDATA Directory for application data If directories contain spaces has to be used Example Setup PEmotion exe S v gn INSTALLDIR C Programs Example lPEmotion IN STALLDIR_USERDATA D User data PEmotion Please note that the program data and application data cannot be used simultaneously by IPEmotion IPETRONIK GmbH amp Co KG 20 139 Zz IER Setting up and removing a Mi OTI O N different PEmotion versions Deinstallation runs with Setup exe via the X key by using the setup of the version to be uninstalled Example Setup PEmotion exe S X v qn 4 3 IPEmotion License The following chapter offers y
110. mple quickly shows how to run a triggered acquisition A trigger defines an activator for the start or stop of an acquisition depending on one or several signals In our example we decided for the following two acquisitions A Acquisition of the motor RPM with defined start and stop trigger A Acquisition of the fan RPM with defined pre and post trigger and start and stop trigger Therefore two channels are selected and defined in the Signals main navigation tab A D mot a n_fan By using the Acquisition main navigation tab you can configure the corresponding channels and the respective trigger 1 First of all add for each channel an additional storage group Click on Add storage group 5 2 Select the desired channel in the overview Available channels and click Selection or drag the channel into the right overview Included channels by using the Drag amp Drop function Using the Saving tab you can define the format and edit a prefix e g Motor RPM or Fan RPM Using the Storage tab you can now define the trigger a n_mot 1 Select the Triggered data storage mode 2 Define the Start and Stop trigger by using the Formula editor or directly enter the definition In our example the start trigger is defined as n_mot gt 300 and the stop trigger as n_mot lt 300 It means that the data acquisition starts at the time when the motor RPM is over 300 1 min Therefore the data acquisition stops at the time when the RPM is unde
111. n stops at the time when the RPM is under 2000 1 min By defining a pre and post trigger you have a lead time of 20s and an after run time of 30s Click on Save to store the made changes and configurations in the current file Or click on Save as to store the configuration using a different name IPEmotion IPETRONIK GmbH amp Co KG 125 139 conte stn P moton 8 Software add ons 8 1 Climate package PEmotion offers you the convenient ability to support various climate applications in the automotive and test bench sector The functionality is based on a DLL developed by US authority NIST software REFPROP This application executes the actual calculations A separate license is required for the use of this climate package Besides this license a REFPROP installation is mandatory If the climate license is activated IPEmotion opens a Open dialog at start to select the REFPROP DLL Without the refprop installation the climate package can not be used and is deactivated If IPEmotion without climate license is starting a configuration which includes objects of the climate package e g log p h diagram formulas the objects are displayed but cannot be used The following refrigerants are currently supported Refrigerant R134a HFO 1234yf R22 R404A R410A R507A R744 Fluid index for calculation 1 2 3 4 5 6 7 8 1 1 Climate calculations The calculations are provided by PEmotion with climate package as external ones which
112. n the data base The first case is recommended for working with a small number of sensors and if no fixed assignations of single sensors to application areas are set A special advantage is the considerably shorter list of sensors in the data base as well as the unique assignation of a sensor to a data base entry via the sensor type By contrast the second case also includes the storage of data which are not specified in the first case Therefore the data base can contain any number of sensors of the same type which for instance only differ in the serial number The second model is recommended for working with bigger systems with fixed assignations in spite of the higher maintenance requirements changes at the sensors like entering the calibration date into the data base The IPETRONIK sensor data base is separated into two linked data base tables This concept allows the access to the general data of a sensor type as well as to the data of a specific sensor from the data base The first table includes all constant data of a sensor type The second table includes all data of a specific sensor They additionally include a reference at the sensor type which belongs to the sensor The second table is primarily used if single sensors with scaling and linearization information should be stored in the sensor data base The table 1 includes for example the following data Sensor type Name I Sensor model Manufacturer A Type of the
113. n wizard Es Product CD Launch the product CD and click Install Software on the Welcome screen On the Install Software screen click Install IPEmotion to start the installation wizard A Setup file Browse the location of the setup file and double click IPEmotion exe to start the installation wizard Depending on the PC operating system a security warning appears Click Run to start the installation wizard 2 Setup language Setup Sprache Langue d installation Select the language for the installation process You can choose between the languages German Germany English United States and French France Setup language Setup Sprache Langue dinstallation EN Select your language for this installation Wahlen Sie de Sprache dieser Installation Choisissez la langue d installation English United States Click OK to start the IPEmotion installation wizard 3 Welcome screen This is the first screen in the IPEmotion installation wizard Click Next to continue IPEmotion IPETRONIK GmbH amp Co KG 18 139 KE l D SE Setting up and removing Mi OTI O N 4 License agreement Read the license agreement carefully and accept the included conditions Click Next to continue 5 Customer information Please enter your customer information Click Next to continue 6 Hardware system Select the desired hardware system or deactivate the hardware not to be used Click Next to continue 7 Setup type Choose the des
114. nction or the Selection or AU buttons from the view Available channels can be used to display the desired channels in the view ncluded channels IPEmotion IPETRONIK GmbH amp Co KG 70 139 Working with IPEmotion P Mi OTI O N Define how to measure and store the configured channels e g triggered continuously and in which storage group To do so use the setting possibility Storage within the configuration dialogs To acquire data the acquisition storage has to be started and stopped manually or triggered to start saving of the data continues Due to the fact that an acquisition has the highest priority it can be ensured that the data transfer is sustained and no data is lost A potential PC overload can result in a stop of displaying the data But the recording and 6 3 1 Saving PEmotion offers the ability to configure important dates in the measurement files by using markers Optional texts can also be defined a Select the Acquisition main navigation tab and the Saving entry within the tree view E l P General Saving st ZC Subsequently select the Saving tab in Sees 4 Ges the configuration dialogs and activate the 4 K Monitoring 1 eee rogram Marker function You can define a name TT lnm setise y Format IPEmation for this marker If a marker is activated it es e ven 5 is automatically added to the list of the a ga contra r Gre channels to be stored Ta Function genera 0 ee e PID controller O
115. ndicated in the program list Removing IPEmotion with the deinstallation function of the Control Panel To do so proceed as follows 1 Click in the menu Start on your computer on Settings and then Control Panel 2 Double click in the Control Panel on Add or Remove Programs IPEmotion IPETRONIK GmbH amp Co KG 25 139 KE Setting up and removing f a MI OTI O N 3 Select from the program list the entry IPEmotion and click Remove to start the installation wizard 4 Click Yes to start the deinstallation 5 A progress bar is shown during the uninstalling process 6 After the successful removal of IPEmotion the program has been removed from your computer and is no longer indicated in the program list IPEmotion IPETRONIK GmbH amp Co KG 26 139 a P moton 5 Getting Started The following chapter offers an overview of the available commands and their functions In addition the first basic steps for using PEmotion are explained 5 1 The title bar The title bar contains the quick access bar see chapter 5 5 the software name as well as a tool bar with the following functions IPFEmeton iil Help Open the documentation PEmotion pdf where you can find useful information for a safe and clean application of the software El Minimize Minimize the application window of PEmotion and place it in the task bar of your desktop ER Maximize Make the application window visible on your desktop and refit th
116. ned projects data analysis and statistical reports are made possible The basis for defining the project settings are the two description files projectPar xml and projectData xml With using those project description files and any text or HTML editor you can define default and user defined parameters and the corresponding values A The project properties are controlled with the parameters of the above mentioned XML files The input fields using the IPEmotion user interface are defined as freely editable by default The default setting of the project properties in IPEmotion refers to the language dependent column Name This column Name refers to the user defined parameter descriptions and is therefore name oriented Please note that using the name oriented project settings only the properties can be tracked within the acquisition data file IPEmotion IPETRONIK GmbH amp Co KG 53 139 Working with IPEmotion P VM OTI O N 6 1 1 Configuring project settings In the IPEmotion user interface under the main navigation tab Project all existing project settings are shown The overview is divided into three columns A Name Value ERE MOSK EX B Project Signals Acquisition Vi a New Open FF save as Automatic User guidance generation File Configuration Mame Value Serial number Manufacturer ID Project name Project manager name E Mail address project manager User E Mail address user User lagin ZIN Descrip
117. nels are compared XOR Signal A XOR Signal B At least two channels are compared In contrast to Or only one input can have the logical status 1 for getting a logical 1 at the output IPEmotion IPETRONIK GmbH amp Co KG 73 139 KE l i Working with IPEmotion Mi OTI O N EXP EXP Channel At invalid values of the exponential function NoValue invalid is written into the result channel LOG LOG Channel At invalid values of the logarithm function NoValue invalid is written into the result channel LN LN Channel At invalid values of the natural logarithm function NoValue invalid is written into the result channel SQRT SQRT Channel At invalid values of the square root function NoValue invalid is written into the result channel Tendency SIGN Temp_1 PREV Temp_1 displaying The result is 1 at rising temperature and 1 at decreasing temperature Gliding MEAN Temp_ 1 5 averaging of the last 5 values Logical connection of several channels Temp_1 Temp_ 2 gt 60 AND Temp_3 Temp _ 4 gt 50 Operators This section shows the currently available operators and their syntax and behavior referring to NoVal ues ep A formula is parsed case sensitively lh me mn Addition of two operands Op1 Op2 Op1 NaN Op2 NaN Subtraction of two operands Op1 Op2 Op1 NaN Op2 NaN i Multiplication of two operands Op1 Op2 Op1 NaN
118. ngs by using the Limit value tab Clicking in the Min Max List selection box you activate the creation of a STG file where the global minima and maxima of the corresponding channels are stored IPEmotion IPETRONIK GmbH amp Co KG 58 139 Working with IPEmotion P MI OTI O N 6 2 4 Using the scaling calculator IPEmotion offers you the ability to define the sensor range and acquisition mode of a channel by using the scaling calculator Calculate the physical range and the acquisition range of your data Scaling calculator Sensor data base Channel settings 100 Sensor mode voltage including sensor excita Sensor range Gu Min S Sensor range 100 100 Y 60 Max Min Max Physical range z Min 100 Unit Max 100 y Measure value 1 20 Leem Lael DU mm TO LN Lo GE EL Linear equation y m x b 40 Factor 60 Offset 20 Arniisihan arrirari decimal placecr 3 DS Acquisition accuracy decimal places 3 100 ig Snapshot Physical range Average over valdes Mir Average over time Max Test acquisition 56199999_1 JE Cancel A precondition for using the scaling calculator is the selection of channels in your configuration Start the scaling calculator by using the corresponding button within the Scaling tab The scaling calculator offers you the following four input modes A 2 point scaling ae Free 2 point scaling s Factor Of
119. nked to file Details Directory C Dokumente und Einstellungen zw Eigene Dateien IPETRONIKIPEmation Configuration LoadMeasurementDataFile Autostart script SE A Ww Please note the following restrictions of the internal automation interface Es Messages can be shown in windows VBS only the ability to create own dialogs for configuration options is available for PY A The debug function of the VBS and PY scripts is within IPEmotion currently not available Using scripts The following example shows how to use scripts IPEmotion IPETRONIK GmbH amp Co KG 105 139 ES l RE Working with IPEmotion Mi OTI O N Click on the Add script button A You can load an existing script in the vbs py data format by using the Import button or select a defined script for the Autostart e Only scripts of the vbs and py format can be imported The current PEmotion version offers the following standard scripts ChangePage Select the first page of the view area Increase the item number to select other existing pages s Classification a Database Write the values of the first two formulas in PEmotion into a Microsoft Access da tabase s LoadMeasurementDataFile s LoggerDatalmport ea LoggerStorageGroup Add all active channels to the first storage group of the IPETRONIK Logger in your system MeasurementDataStatistic Raffertest s StartDisplay Start displaying the measureme
120. nt values e g with the action element E StartStorage Start storing the measurement values Es StopDisplayOrStorage Stop displaying or storing the measurement values a InputQuery Write the requested string into the first text variable in PEmotion the text vari able must be available and PEmotion should run in acquisition mode A PidControl List all PID controllers in a popup window and configure the control parameters B StoragePrefix Ask for the prefix of the first storage group before storing IPEmotion IPETRONIK GmbH amp Co KG 106 139 KS IP Practical application examples a Mi OTI O N 7 Practical application examples The following chapter shows some examples how to use IPEmotion in praxis This chapter is structured in the way that the respective examples are arranged according to the main navigation tabs You get a reasoned and logical overview The following acquisition examples were operated under the following conditions In addition the example Running a temperature acquisition was operated by using the guided and step by step configuration Es Used module configuration 5 M THERMO 16 1 M SENS 8 1 M FRQ E Baud rate of the devices 500 kBit s s Baud rate of the CAN hardware 500 kBit s The baud rate of the devices and the CAN hardware must be identical First of all you can check the device status To do so look at the LEDs A The LED is permanently on means that the co
121. nu points also called Main Navigation Tabs allow you a clear and quick activation of the different main part of IPEmotion A light blue colored tab indicates an active main menu point I PEmotion is designed that way that you can follow the main navigation tabs from left to right Use this logical order like a red thread which guides you step by step to a successful measurement B Tips and tricks This page offers useful tips and tricks to facilitate your start in IPEmotion and the work with the software D Keyboard handling This page offers an overview about the keyboard navigation within the View and Analysis main navigation tabs A Customizing Please find useful information about how to edit IPEmotion accordingly your specific requirements lf you wish to receive more detailed information the Expert mode is recommended Activate this mode within Options of the Basic settings Extended levels of the configuration in the expert mode are e g A Setup tree includes more sub nodes for some entries A Status channels show trigger status Offset amplitude and frequency can be changed during measurement The ADP command line option is recommended for users who want to use PEmotion with a specific plugin ADP allows to use different instances copies of given schemata with different application data That means that the same IPEmotion version can be used with different plugin combinations This naturally includes all other a
122. o You can additionally assign a hotkey for a marker Open the IPEmotion options and the Hotkey entry Open the Area Acquisition entry AE SE and double click on Acquisition SSES SE Storage group Marker och e TTT mem key for this new command Select the corresponding marker in the Entry column Confirm your configuration with OK Command Description Srea Acquisition At using the hotkey the text if defined is set with Droe the time stamp If the associated storage group is stored at the same time the date is also saved for this process Storage group IPEmotion offers you the ability to track the current Saving status of a storage group Depending on your configura mame Status tion of the storage mode Storage configuration tab the EENES Pre trigger phase current status is shown within the Saving window si Messages i Status FQ PC Ag Saving WW Output The following modes are currently available Offline Pre trigger phase Storage Waiting for trigger IPEmotion IPETRONIK GmbH amp Co KG 71 139 e IP Z motion 6 3 2 Formula editor The formula editor allows a simple use and displaying of mathematic and physical functions and formulas The following chapter shows entry examples of the available functions and formulas The calculation results are automatically written into the formula channel result channel at using the formula editor Function Example Editor entry A
123. oad internal scripts from the scripting environment as well as external vbs files The external scripts are loaded into the scripting environment Es Open the context menu with the right mouse button and select Add action any number of or Delete action Ge A Double click on the element or use the Properties entry in the context menu to open dialog You can now define the fol lowing settings IPEmotion Caption of the element IPETRONIK GmbH amp Co KG F Configuration Action Use as default General Action settings Use description File Script Execute _ Program Script MessStark 1 Layout 95 139 Working with IPEmotion P MI OTI O N B Background picture E Execution as script or program and selection of the same Open the General and Layout tabs to define further settings The following example shows a possible configuration of several action elements on 2 pages in com bination with the alphanumerical display element yellow Pages i j T_innen Pages Channels Display Display of all channels PAGE 1 viii Start Acquisition Stop Acquisition Page 1 7 Start Storage Stop Storage 6 4 2 Keyboard handling PEmotion allows a continuous keyboard navigation for the view tab You can use the following keyboard navigation for display purposes General A Page Up Page Down Change the selected page Tab Focus the next element a Tab Shift Focus the previous e
124. ollowing description is defined a n_fan fan RPM with additional description Balluff BOS M18 12345 4 By using the Scaling tab you can define the physical range sensor range and sensor mode A Enter the values in the channel view within the Phys Min and Phys Max column or enter the values in the Scaling tab within the Physical range Min and Max field IPEmotion IPETRONIK GmbH amp Co KG 118 139 P motion Practical application examples a Enter the values for the sensor range a Select Frequency as Sensor mode In our example the following values for the channel p_fan are defined Ke a Led Physical range 60 6000 1 min Es Sensor range 1 100 Hz By using the scaling calculator and the Factor Offset scaling you can alternatively define the values Enter in the Linear equation y m x b the desired values for the factor and offset Confirm your entries with OK Scaling calculator 6000 emm E ri band a ba gt Eu H Lo f oO Sensor range Min Max Physical range Min 1 1fmin Max 100 1 min Linear equation y m x b Factor Offset 40 60 Value Hz Physical range 60 min 6000 min Channel settings Sensor mode Frequency Sensor range 0 200000 Hz Min Max Unit Measure value 1 Value Hz Acquisition accuracy decimal places Snapshot _ Average over values J Average over time Test acquisition Cancel 5 In the Displ
125. on and select the desired data logger The data logger with the initialized configuration is shown in the IPEmotion user interface TEDS sensors IPEmotion V01 09 in combination with e g IPEmotion Plugin IPETRONIK X V01 03 allows using TEDS sensors Transducer Electronic Data Sheet To work with TEDS sensors proceed as follows A Connect the module to a Lemo 2B port 10 pin of a suitable module tion and shown in a popup message as well as within the message window The Symbol column within the channel overview identifies the connected TEDS sensors ffi whose data is automatically set for the channel Q Connecting and disconnecting of a TEDS sensor is automatically detected by IPEmo p A Select the Detect 4 function to read out the sensor and scale with predefined data or the Synchronize function After reading out the sensor and acti BCEE vating the corresponding channels you can use the tab Scaling gt Scaling calcu Hersteller ASC GmbH lator or the context menu gt Scaling cal Name 4421 1 culator to display the sensor informa Seriennummer 91144 tion The entry mode TEDS Sensor is Sensorproperties automatically selected Colbration ai A Calibration valid Calibration date 29 09 2011 6 2 2 Channels Expiration date 28 09 2012 The view Channels contains all available channels of the device selected in the tree list of the systems section With the Column Chooser function PEmo
126. on dialog with OK You can now start an acquisition and store the data To do so proceed as follows 1 Click in the View menu on the button Start displaying to start the displaying of the acquisition data 2 Click on the button Start storing to record the acquisition data IPEmotion IPETRONIK GmbH amp Co KG 46 139 a P moton Automatic configuration and displaying of data Select the Automatic configuration and displaying of data option and confirm with OK Automatic hardware detection The automatic hardware detection was successful The following systems have been Found 0001705 Which action do you want bo run i51 Guided and configuration step by step Cre 4 Wwe Automatic configuration and displaying of data S EN Manual configuration of signals acquisition and displaying _ Always operate the selected action Deactivate automatic hardware detection at start OK Cancel The displaying starts automatically on the basis of the connected hardware Click on the button Stop displaying DC to stop displaying the acqiured data PERE R 8 O FA IPEmotion Project Signals Acquisition i Jata manage Analysis Scripting Info e oO m o m Ve CW Sp Sa Properties Selection window Control Scre S ayo s Edit view Stop displaying Start storing Add page age 1 ix ndo grid Pages 100 100 Pages Channels Display i All channel view Manual configuration of signals acquisi
127. on offers you the ability to connect hotkeys with scripts or programs and to run them per key activation or click You can load internal scripts from the scripting environment as well as external vbs files The external scripts are then loaded into the scripting environment Es Open the Area Scripting entry and double click Scripting Script Run Assign a hotkey to the new command Additionally select the desired script within the Entry column Confirm your definitions with OK Hotkey General Print Contral F Plugins General Full screen mode FS d i i Command Description d Area Scripting Scripting Script Add script Adding a new script Scripting Script Group Combines the selected scripts in one group Scripting Script Import Importing a VBS File to the selected script Scripting Script Export Exporting the script code to 4 VBS File Scripting Macro r cording Start Shark macro recording Scripting Macro recording Stop Stop macro recording Scripting view Library Showing hiding the scripting library Scripting view Details Showingshiding the scripting details Scripting Script Run Running the selected script Plugins Activate or deactivate the hardware systems to be used ES IPEmotion options Frequently used a E Active Title Version Description kb Basic settings l E E D Appearance icf e m a gt IPETROWNIE Mx 01 00 00 14006 IPETRONIK Ethernet Devices If Data manager cke el a IFETRONIE LOG O3 2 00 15679 IPETRONI
128. onsult chapter 8 2 The external PEmotion automation interface is based on the implementation of COM components Component Object Model You can create inter process communication and dynamic object generation under the platform Windows With the use of the COM interface IPEmotion offers you the ability to program ea language independent version independent a object oriented Each COM component offers an interface that can be used after successful instantiation creating an object of a specific class for using the available functions of the COM component With the help of the out of process interface you can address and control PEmotion from an external program The out of process interface in PEmotion is designed to be used with any programming language Automate for example the following sequence Start program load configuration start and stop storing IPEmotion IPETRONIK GmbH amp Co KG 136 139 a IP External IPEmotion automation interface a MI OTI A N The following example shows the code of a Visual Basic NET application for an acquisition and storage of data Example code Dim app As IPETRONIK IPEmotion app CreateObject PETRONIK IPEmotion app OpenWorkspace C Test iwf Acquisition with storage of the measured data app AcquisitionWorkspace StartAcquisition IPETRONIK AcquisitionModes ACQUISITION_MODE_ST ORAGE app AcquisitionWorkspace StopAcquisition app Quit Closes IPEmotion 9 2 Creat
129. or regulations 3 Ownership of Intellectual Property LICENSEE agrees and acknowledges that the SOFTWARE is being provided to it only for use in EQUIPMENT in the ordinary course of business and that LICENSEE agrees and acknowledges that IPETRONIK is the owner of all title and proprietary rights in the SOFTWARE including without limitation any and all patents copyrights trademarks or any other intellectual property rights associated with it under the laws of the United States or any jurisdiction throughout the world No right title or interest in the SOFTWARE or any IPETRONIK patent copyright trademark or any other intellectual property right is transferred to LICENSEE or any other party through this Software License Agreement 4 Disclaimer of Warranties Liability Limitations a THE SOFTWARE IS PROVIDED TO YOU AS IS THERE ARE NO WARRANTIES OF ANY KIND WHETHER EXPRESS OR IMPLIED INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND COMPATIBILITY AND TITLE LICENSEE ASSUMES ALL RISK AS TO THE SELECTION USE PERFORMANCE AND QUALITY OF THE SOFTWARE IN NO EVENT WILL IPETRONIK OR ANY OTHER PARTY WHO HAS BEEN INVOLVED IN THE CREATION PRODUCTION OR DELIVERY OF THE SOFTWARE BE LIABLE FOR SPECIAL DIRECT INDIRECT INCIDENTAL OR CONSEQUENTIAL DAMAGES INCLUDING LOSS OF PROFITS OR INABILITY TO USE THE LICENSED MATERIAL IN NO EVENT SHALL IPETRONIK S LIABILITY FOR ANY DAMAGES OR LOSS TO LI
130. ou an overview about the licensing process for the PEmotion software By using this licensing optional program features which depend on the purchased IPEmotion edition are available after a successful installation of IPEmotion Please find further information according the editions in chapter 3 7 PEmotion editions IPEmotion contains basically at delivery all program features The corresponding functions and contents are unlocked by using the licensing The license model of PEmotion differs between the following three basic models Es Free demo version for 30 days with full functionality Free basic version with limited functionality Es Several versions against charge with graded functionlity The free demo version for 30 days allows you to get to know PEmotion with unlimited functionality The free but limited basic version shows you the functionality of the versions against charge Before being able to activate the software you have to register on the PEmotion homepage www ipemotion com The following activation runs online or by e mail A use of the software is not possible without a prior valid activation of PEmotion 4 3 1 Demo version The free demo version for 30 days must be activated You get the license key immediately after the registration Enter this license key into the PEmotion Licensing dialog at first start of IPEmotion After the expiration of the 30 days the demo version turns automatically into the free
131. output signal Excitation Current Frequency IPEmotion IPETRONIK GmbH amp Co KG 61 139 e Hz moton Physical unit Minimum Maximum physical value e Output unit Excitation Current Frequency Minimal Maximal output excitation current frequency Es Supply excitation nominal 5 Excitation minimal maximal A Sensitivity Bridge resistance I5 k factor 5 Bridge factor Poisson s ratio Maximal current The table 2 includes for example the following data Serial number Calibration date Additional information about the single sensors can be stored by using a user defined list in the XML format This type of information includes for example the sensor precision overload limit sensor type and the working temperature range Please note that these data do not flow into the scaling calculation The data base format The sensor data base in the IPEmotion version was created in the XML format At the installation of IPEmotion the IPESensorDatabase file is stored in the following directory Windows XP C Documents and Settings UserApplication data IPETRONIK IPEmotion Vxx xx Database Windows 7 C ProgramData lIPETRONIK IPEmotion Vxx xx xx Database the following extract shows the structure of the data base lt xml version 1 0 encoding utf 8 gt lt SensorDatabase version 1 gt lt GIGATRONIK gt lt Sensor name GTF20midi gt lt sensorName type String gt GTF20
132. p2 Op1 ORB Op2 PREV Op1 ROUND Op1 IPETRONIK GmbH amp Co KG Op1 NaN Op1 NaN Op2 NaN Op3 NaN Op1 NaN Op1 NaN Op1 NaN Op1 NaN Op1 lt 0 0 Op1 NaN S lt 0 0 Op1 NaN GAN NaN Op1 NaN Op1 NaN Op1 NaN Op1 NaN Op2 NaN Op1 NaN Op2 NaN Op2 0 0 Op1 NaN Op1 NaN Op1 NaN Op1 NaN Op2 NaN Op1 NaN Op2 NaN Op1 NaN Op1 NaN 76 139 Working with IPEmotion SHL SHR SIGN SIN SINH SQRT TAN TANH TESTBIT TESTMA SK TESTMA SKS TIME TIMER VALID VALID XOR XORB IPEmotion integer value Left shift Right shift Sign detection Op1 lt 0 0 gt 1 0 Op1 0 0 gt 0 0 Op1 gt 0 0 gt 1 0 Sinus function Sinus Hyperbolicus Square root Tangent function Tangent Hyperbolicus Check Op2 bit of Op1 for 1 Op2 starts with O Check Op1 value with And mask OxFFFFFFFF for unequal 0 Check Op1 value with And mask Op2 for unequal 0 Time counter which is reset at a Op1 value lt 1 Time emitter which sends 1 if Op1 is not changed within Op2 seconds otherwise 0 Check Op1 value for validity Op1 lt gt NaN gt 1 0 Op1 NaN gt 0 0 Check Op1 value for validity If Op1 value is invalid Op2 is sent back otherwise the Op1 value Logical Exclusive Or operator Bi
133. parison operator CH Comparison value Define a fix value or set a comparison to another channel Assign by using the Limit value condition W dialog and the formula definition Es By using the Settings tab you can define the following definitions B Color Define a color for clarifying an exceeding of the upper or lower limit value limit violation D Trigger condition Define the trigger condition as Level or Edge A Hysteresis Define the value by which the limit value has to be lower after exceeding the upper limit value before initiating a new limit value message IPEmotion IPETRONIK GmbH amp Co KG 88 139 Working with IPEmotion P MI OTI O N A By using the Output tab you have the ability to select the following properties A Output location Define the output in a message window or on an output channel ea Output channel If you have selected the output channel as output location define the desired channel by using the Channel selection dialog window 6 Output value If you have selected the output channel as output location define the value to be set on the output channel B Message type IPEmotion differs between three different message types Define an individual message type for each limit value Information Warning Error A Message Edit any user defined clear text description A The Program tab offers the folllowing configuration possibilities B Execute Connect limit values with scripts or programs an
134. pecific signal database in IPEmotion the signal database must be converted to an IPEmotion file format The conversion can be done with an external program These user defined programs are easily generated on request and offer the ability to import signal channels into PEmotion First of all you have to define the basic setting of IPEmotion to use the configuration with signals Click on Options or open the dialog window IPEmotion Options by using the application menu and the Options function In the Basic settings section select the configuration type Signals configuration and the desired signal database mpc Confirm with the OK button To create a configuration with a signal database proceed as follows 1 Inthe Signals menu click in the window Signals 2 Under the point Signals click on the Import button 4 and select the Signal import 3 Open the desired signal database mpc and select the desired signals by using a filter or multiple selections Assign the signals with Drag amp Drop or by using the arrow buttons 4 Select the desired hardware in the Components column system settings within the IPEmotion Plugins gt Settings Q The available hardware components are based on the assigned priority of the This preselection of the system components facilitates the device selection and improves the system speed Confirm with OK 5 Click on the Start displaying P button to start the displaying of the acquisition
135. pplication data e g skin user folders hotkeys To use an PEmotion version with different application data proceed as follows A Copy the existing IPEmotion application data folder of the corresponding version and choose any name a Create a new desktop link to the IPEmotion version e g by copying the existing desktop link Add ADP Path of copy of application data folder lt Title gt to the target properties space before ADP and quotation marks are mandatory additional title is optional IPEmotion IPETRONIK GmbH amp Co KG 39 139 a Hz moton Es Scripting Edit IPEmotion accordingly your specific requirements and easily automate your process with the automation interface in PEmotion The available interfaces depend on the acquired edition Es Documentations Contact and support 5 6 Getting Started 5 6 1 Launching IPEmotion IPEmotion Licensing Launch IPEmotion from the menu Start Programs IPETRONIK gt IPEmotion and enter a valid livense key in the IPEmotion Licensing dialog Confirm your entry with Assign The license information and all available version dependent components are listed in the description field Accept the activation of the license key with OK Exit the PEmotion License dialog with Close Logger selection HS Logger selection Selection Serial number IP Acquisition Version 4 ailability gt C C LI 80001955 10 1 20 20 TESTdrive 3 18 00 RC Build 10060
136. r Tv and Tn within the Parameter tab configure the behavior of the controller These pa rameters are additionally displayed as internal channels at activated expert mode if the controller is selected in the Setup tree Es Furthermore status channels can be used which e g show the triggering status IPEmotion IPETRONIK GmbH amp Co KG 132 139 ssn IP 2 moton Mame Unit Display Min Display Description d Fal Calculations Jl Formulas 4 7 veietz Kr PID controller 1 10 10 L Number Ty PID controller 1 10 10 Inn Status Tn PID controller 1 10 10 Text Status PID controler t P A ES Storage Storage group 1 A tE Monitoring Wh Limit values d be Analysis Ey FFTs H Control a le PID controller mA E A PID controller 2 Function generators General Display Displaying area d Ia Ir O EmA O GC O Go O CH CO O CG Min 0 Max 1 Formatting D Decimal places 0 se Each of this 4 internal channels can be defined with the grid columns or the tabs Further grid columns are available with the Column Chooser function 8 2 2 Function generators Function generator objects in PEmotion allow reproduction of real functionality of function generators As well as with real function generators it is possible to generate different types of signal forms whose parameters can also be changed Every signal form has a function generator object That means that the user already decides which s
137. r 300 1 min IPEmotion IPETRONIK GmbH amp Co KG 124 139 a l D Se Practical application examples eo MI OTI O N Available channels Included channels A Calculations 1 fi Formulas z E gt Selection E gt All x Selection x All Filing e Mame Description Mame Storing rate Storage group 1 1 S ge group gt zl e G lOO0O0O0 3 SoS ESS S 4 H 4 b General Saving Storage Mode Triggered data storage k Pre trigger is Post trigger 10s Start trigger n mot 300 Jl Stop trigger pn mot 200 IO C3 n fan 1 Select the Triggered data storage mode 2 Define the Pre and Post trigger 3 Define the Start and Stop trigger by using the Formula editor or directly enter the definition Setup Available channels Included channels d Calculations 1 fi Formulas m E gt Selection E gt All xX Selection XxX All e E Filing d Mame Description Mame Storing rate Storage group 1 1 ge group e 7 Storage group 2 il E gt E Sa Eee eo 56199999 4 4 k 4 General Sawing Storage Mode Triggered data storage k Pre trigger 205 Posk trigger 305 Start trigger mn Fan gt 2000 fx Stop trigger n_fan lt 2000 IO In our example the pre trigger is set to 20s and the post trigger is set to 30s The start trigger is de fined with n_fan gt 2000 and the stop trigger with n_fan lt 2000 It means that the data storage starts at the time when the motor RPM is over 2000 1 min Therefore the data acquisitio
138. r use on any internal computer or piece of EQUIPMENT as long as it is only on one computer or piece of EQUIPMENT at any given time LICENSEE will notify all of its employees agents or representatives permitted access to the SOFTWARE of the duties and obligations under this Software License Agreement LICENSEE has the right to MODIFY the SOFTWARE for use on any internal computer or of EQUIPMENT as long as it is only on one computer or piece of EQUIPMENT at any given time Any MODIFICATION S to the SOFTWARE are subject to the terms and conditions of this Agreement LICENSEE may not i Loan rent lease give sublicense distribute transmit or otherwise transfer the SOFTWARE or otherwise exercise any of IPETRONIK s legal rights in and to the SOFTWARE or any derivative works of the SOFTWARE in whole or in part except with the prior written agreement of IPETRONIK li Copy translate reverse engineer decompile disassemble the SOFTWARE in whole or in part iii Except as provided is Section 2 d create derivative works based on the SOFTWARE in whole or in part IPETRONIK GmbH amp Co KG 7 139 e Hz moton iv Remove modify or cause not to be displayed any copyright or trademark notices license agreements or startup messages contained in the programs or documentation v Transmit or otherwise export outside of the Unites States any of the SOFTWARE or technology in violation of United States or other applicable laws
139. ral Saving Storage Directory C Dokurmente und Einstellungenew Eigene Dateien IPETRONIK I FPEmotiom Storage 6 Format IPEmation w Prefix Temperature acquisition Click on Save EN to store the made changes and configurations in the current file Check the respective made steps of the IPEmotion User guide and select the next step View to continue IPEmotion IPETRONIK GmbH amp Co KG 112 139 KE Practical application examples a MI OTI O N 7 2 4 Visually displaying acquisition values The View main navigation tab offers you the ability to graphically display the defined channels In our example the following visual elements are defined T 1 T 6 T p LAC and T_a LAC T braket BL FR yt chart All used channels Alphanumerical display To display the desired channels and the respective data using a visual element proceed as follows Select within the Elements point the desired visual element Click on the button Add page You can divide the screen area into several areas if you want to display different signals by using various visual elements Select the desired Layout LL Ea H of the screen areas by clicking the corresponding layout symbol IPEmotion offers you the ability to divide every single displaying area into more areas By doing so you can use various visual elements for different channels Click in the desired displaying area and open the menu with the right mouse button Select the correspon
140. ransmitter Flow rate turbine Piston flow meter UI Screw flow meter Vortex shedding device JI Accelerometer Triaxial accelerometer Torque meter Counter II STG I LVDT II STG bridges Strain Temperature sensor IPEmotion If non of the predefined types meets your requirements you can add user defined types to the sensor data base The sensorTypeld value must be set to 0 A short description text should classify the corresponding sensor lf you want to use several exemplars of a sensor within the sensor data base use the SpecificSensors entry Each of the sensors must get an unique serial number serialNumber In addition each of these exemplars can get a calibration date calibrationDate as well as a period of validity of the calibration CalibrationValidDuration including the data calibrationnValidYears calibrationValidMonths and calibrationValidDays Furthermore the values for physicalMin physicalMax outputMin and outputMax which can be found in the data sheet can be overwritten by values which are read at the calibration You can add non relevant information for the functionality of the sensor data base like the working temperature range under the UserProperties entry These are Key Value pairs which are used for displaying the information Please note that these data are not used in any calculation 6 2 6 The Import function
141. respective data using a visual element proceed as follows Click on the button Add page IPEmotion IPETRONIK GmbH amp Co KG 90 139 Working with IPEmotion P MI OTI O N IPEmotion offers you the ability to configure a background picture for a screen page To do so select the desired page open the context menu with the right mouse button and select the Prop erties entry Subsequently define any background picture Please note that a background picture is only available in the Undo grid layout L Configuration screen page i Use as default General The Use as default button allows you to save the current re settings of the configuration dialog for the visual element SEH Sie a These settings are always loaded at opening the dialog l see This function can also be used within the context menu of H ee sg the respective element with the Use as default E entry d To allow an easy and quick overview of the single screen pages you can assign a V hotkey for each page and navigate between the pages with little effort A Click on the corresponding page in the Pages tab and open the menu with the right mouse button Or open the configuration dialog by double clicking on the corresponding page Es Assign in the Hotkey field the desired keyboard shortcut and confirm with a click out of the entry field lt Shift gt lt Alt gt and lt Ctrl gt Excluded are the keys and combinations which are O Possible hotke
142. rmat and edit a prefix Available channels Included channels a Selection a All x Selection All Mame Description Mame Storing rate T T gt gt 56299999_3 56299999_4 4 d 4 d General Saving Storage Directory CA Dokumente und Einstellungenmzwi Eigene Dateien IPETRONIKAIPEmotioni StorageData aa Format IPErnotion me Prefix Click on Save EN to store the made changes and configurations in the current file IPEmotion IPETRONIK GmbH amp Co KG 120 139 l Do en Practical application examples M OTI O N 7 4 3 Visually displaying acquisition values The View main navigation tab offers you the ability to graphically display the defined channel In our example the yt chart is selected as visual element To display the desired channel and the respective data using a visual element proceed as follows 1 Select within the Elements point the desired visual element 2 Click on the button Add page ol Change into the Channels tab and select the desired channel Drag the selected channel into the right screen area by using the Drag amp Drop function The properties of the respective visual element can be defined by using the Properties button or by double clicking on the element EE Pages Channels Display Name 3500 gt i see E S000 56299999_3 56299999 4 2500 2000 1500 1000 500 e 0 5 10 15 20 25 30 3 Click on Start displaying vou can now read your momentary value from the respective vi
143. rresponding device was detected A The LED is flashing means that one or more channels of the corresponding device are active 7 1 Launching IPEmotion First of all make sure that all devices and the CAN hardware are connected and ready for use Stat IPEmotion from the menu Start Programs IPETRONIK gt IPEmotion and enter if not done before a valid license key in the IPEmotion Licensing dialog Confirm with Assign and close the dialog window with OK Close The Automatic hardware detection dialog window appears at opening IPEmotion for the first time Select the command Guided and configuration step by step IPEmotion IPETRONIK GmbH amp Co KG 107 139 Za Practical application examples P ges MI OTI O N 7 2 Running a temperature acquisition 7 2 1 Project settings First of all define your configuration by using the project properties and check the respective done steps of the IPEmotion User guide CR 8 ee goe L IPEmoten Project Signals Acquisition a o 8 IECH AUTO k Save as Aubomatic User guidance generation Configuration Project properties Name Value Company name Automotive manufacturer xy Chassis ID ALB2CSD4E5F6 Vehicle ID Prototype 4711 Project name Internal prototype test Project manager name Useri surname User First name E Mail address project manager Firstname 1 surname ipetronik com User Useri surname Useri First name E Mail address user Firstname surna
144. rsion Cancel A Assign an available license key Follow the instructions for registering and unlocking IPEmotion see steps 3 4 A Buy IPEmotion online Get the desired IPEmotion version online and follow the licensing process see steps 1 4 A Enroll for unlimited testing of all functions for 30 days e Testing of all functions without restrictions this screen appears at every start of IPEmotion Do not enroll and use permanently as limited basic version 3 Enter in the IPEmotion Licensing dialog a valid activation key Confirm your selection with Assign The license information and all available version dependent components are listed in the description field F iPEmotion Licensing Activation key Please enter an activation key within 30 days Otherwise the purchased version turns automatically into the basic version with limited functionality O IPEmotion can now be used for 30 days A version against charge has to be unlocked IPEmotion IPETRONIK GmbH amp Co KG 22 139 EH Setting up and removing P geg Mi OTI O N 4 To finally unlock IPEmotion you need an unlock key Enter the shown registration key in the IPEmotion homepage or send it to license ipemotion com After that you receive the unlock key Enter this Unlock key in the corresponding field and confirm with Assign The license information and all available version dependent components are listed in the description
145. se Details ZS Sud Start storing group value Elements Control View Setup Available channels Included channels a Calculations i Selecti gt Selection All IN Formulas Selection sort X 48 a Name Active Description Name Storing rate ki 7 a tE Monitoring al WE Limit values gt 56199999_3 56199999_4 L 561999992 O a s General Saving Storage Pre trigger Post trigger Start trigger Stop trigger LI System status In the Acquisition main navigation tab all available channels are shown You can configure calculations and create storage groups If a storage group contains channels with only one storing rate i e all channels have the same storing rate one time channel is created for all channels of the storage group lf a storage group contains channels with different storing rates one time channel is created for each channel of the storage group IPEmotion offers the ability to save the acquired data in different formats Es Create a storage group and add the desired channels to the ncluded channels overview Es Select in the Saving tab of the configuration dialogs the desired format Es Create another storage group and repeat the above steps Please note the maximum file size of approx 454 MB If this file size is reached the corresponding file is closed and a new file is created An ascending index counting is used for describing the generated files The Drag amp Drop fu
146. software License Agreement supersedes and merges all prior agreements with IPETRONIK concerning the SOFTWARE and can only be modified by a subsequent written agreement signed by IPETRONIK To the extent that there is any conflict between this Software License Agreement and any IPETRONIK purchase order or other written agreement for the purchase of IPETRONIK parts or products the terms of the purchase order or written agreement control 9 General IPEmotion a If any provision or portion of a provision of this Software License Agreement is determined to be invalid or unenforceable it shall be deemed omitted and the remaining provisions of this Software License Agreement shall remain in full force and effect to the fullest extent permitted by law LICENSEE may not assign or transfer all or part of this Software License Agreement to any third party without the express written approval of IPETRONIK This Software License Agreement will be governed by the laws of the State of Michigan without regard to its conflict of laws provisions All disputes arising out of or in connection with the present contract shall be finally settled under the Rules of Arbitration of the International Chamber of Commerce by one or more arbitrators appointed in accordance with the said Rules IPETRONIK GmbH amp Co KG 10 139 e Hz moton 2 General information 2 1 About this manual The manual PEmotion describes the structure of the software and how
147. stem Add components eae e Glas aaa Aa companiel Detect Initiale Start displaying EES h Y r b Hardware Configuration Access View To take an acquisition with the manual configuration proceed as follows 1 Click on the button Add system to open select the desired system 2 Click on the Add component button to expand the existing system by showing additional hardware devices and to set the respective number of the corresponding modules Please note that the button is only activated if the respective system is selected in the window Systems 3 Click on the Initialize Gi button to initialize the hardware and to synchronize and configure the selected system on the basis of the data At the hardware initialization the devices are switched into the configuration mode and following into the acquisition mode 4 Click on the Start displaying P button to start the displaying of the acquisition data 5 Click in the View menu on the Start storing button to record the acquisition data IPEmotion IPETRONIK GmbH amp Co KG 51 139 a P2 moton A 22M SX Be wh ooN IFEmotion Project Signals Acquisition View Data manager Analysis Info C P B p ep a Yt Start displaying Start storing Add page Al chan Fix y t chart Control Screen pages Elements 5 7 3 The configuration using a signal database PEmotion offers you the ability to load a signal database from user defined files or databases To access a s
148. sual element but this value is not recorded and stored 4 To record and save the data click on Start storing e The acquired data is now stored in the application data At using the standard installation the data can be found in Windows XP C Documents and Settings xx My Documents IPETRONIK IPEmotion Windows 7 C Program Files Common Te To stop the data displaying click on Stop displaying Ze Click on Save EN to store the made changes and configurations in the current file IPEmotion IPETRONIK GmbH amp Co KG 121 139 KS IP Practical application examples za Mi OTI O N 7 4 4 Managing the data The Data manager main navigation tab offers you the ability to manage and analyze the acquired data and properties Open the desired dataset iad file with the Load Co button 7 4 5 Displaying and analyzing data The Analysis main navigation tab offers you the ability to visualize and analyze your data by using a y t chart 46 2iad 3500 t_motor S 3000 tinnen GEN E aussen 2500 2000 1500 1000 500 0 0 100 200 300 400 300 600 700 IPEmotion offers you the ability to visualize the single data in details by using the following zoom functions im Wy Move Move a single axis or both A Stretch compress el Zoom in or out the displayed area of a diagram a Mark QR Mark a specific area within the chart to enlarge this section of the diagram You can undo all zoom function and reset the
149. t IPETRONIK S expense as IPETRONIK may reasonably request to settle or oppose any such claim and v such claim of infringement is based only on the licensed SOFTWARE and documentation as provided to LICENSEE In the event of any infringement claim for which IPETRONIK is liable pursuant to section 5 a IPETRONIK may at its sole option and expense i procure for LICENSEE the right to continue using the licensed SOFTWARE or documentation ii modify or amend the licensed SOFTWARE or documentation so that it becomes non infringing iii replace the licensed SOFTWARE or documentation with a_non infringing substitute or iv recover the infringing licensed software and documentation from LICENSEE and repay to LICENSEE all license fees paid to IPETRONIK in connection therewith less a reasonable amount based on LICENSEE s use prior to such recovery and refund This Article 5 sets forth IPETRONIK s sole obligations and liability for intellectual property infringement These indemnity provisions only apply to the SOFTWARE as originally licensed to LICENSEE and do not cover any MODIFICATIONS made by LICENSEE or any other third party 6 Limitation of Liability lIPEmotion a EXCEPT WITH RESPECT TO ITS INTELLECTUAL PROPERTY INDEMNIFICATION OBLIGATIONS AS SET FORTH IN ARTICLE 5 INNO EVENT SHALL IPETRONIK BE LIABLE FOR SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES INCLUDING WITHOUT LIMITATION LOST PROFITS LOST DATA OR LOST
150. tegrated macro recording VBS only allows you to record your actions in the user interface and run it later on as a script You can therefore automate your sequences without extensive programming skills The following figure shows an example script for loading data files A CR WHK RAR IPEmotion Project Signals Acquisition View Data manager Analysis Scripting Info 2b Kw BE f Delete Add script Import Export Run Start Library Details Y Script Macro recording Edit View Library Script Script1 This sample script loads a measurement data File a IMPORTANT You must change the following string to point to an existing measurement data file The parts Dokumente und Einstellungen and Eigene Dateien of the path depend on your operating system USER_ should be replaced with your user account name and Sample iad with the name of the measurement data file to be loaded Dim dataFile dataFile C Dokumente und Einstellungen _USER_ Eigene Dateien IPETRONIK IPEmotion StorageData Sample iad Dim workspace Set workspace Analysis Workspace Dim config Set config workspace DataPool Previously loaded measurement data will be removed first config Resett Load the data file config ImportDatafdataFile Test if the data file could be sucessfully loaded IF config DataGroups Count gt 0 Then myMsg MsqgBoxt The File dataFile was loaded 0 IPEmotion v 4 gt Details Name zort _ li
151. the dongle with the PC and wait until the blue LED at the dongle is no longer flashing but is red This process can take some seconds Open the dialog IPEmotion Licensing IPEmotion IPETRONIK GmbH amp Co KG 23 139 EH Setting up and removing P ges Mi OTI O N About IPEmotion IFEmotion O1 09 00 Beta Build 19947 Copyright 2011 IPETRONIE GmbH G Co KG All rights reserved IPETRONIK Licensing License information Basic Edition 4ubomatian Macro recording Control Climate package 1 of 1 licenses available Assign A The assigned license code is now displayed as hidden and the included license information is listed Click Give to return the license to the dongle IPEmotion is now available as Basic edition J PEmotion Licensing J 1PEmotion Licensing License code License code RRR Ek kk Se ee ee k E k E eo a k k k k k k k so 03 45 10T 101 2 2E000 000H2 00002 00000 00000 00000 00000 License information Professional Edition Automation Macro recording Control Climate package License information Basic Edition 4ubomatian Macro recording Control Climate package 0 of 1 licenses available 1 of 1 licenses available Assign Give Clase Assign Get Close Es You can now disconnect the dongle from the PC and work with IPEmotion IPEmotion IPETRONIK GmbH amp Co KG 24 139 KE IP Setting up and removing Mi OTI O N
152. tion The user specific data of the Name column include information about the vehicle as well as details from to the author of the project and the user The parameter Value allows you to add and or edit own project related notes and comments within the IPEmotion user interface With using the Column Chooser function you can add the Key column to this overview Click into the headline of the column and open the menu with the right mouse button Select Column Chooser Project properties Name Value Sort Ascending Serial number al Sort Descending Manufacturer ID Clear Sorting Project name Column Chooser Project manager name Drag the available Key column from the Customization dialog into the desired position by keeping the left mouse button pressed Project properties Name Key Value Company name Ce Serial number vehicle Manufacturer ID vehicleID Project name Project Project manager name Atbendanthame E Mail address project manager 4ttendantMail User UserName IPEmotion IPETRONIK GmbH amp Co KG 54 139 Working with IPEmotion P z Mi OTI O N The division into the two project description files projectPar xml and projectData xml was required to separate the definition of the project properties from the real values For purposes of clarity projectPar xml contains the definition of the project parameter and projectData xml the corresponding values You have the ability to automatically update those
153. tion and displaying Select the Manual configuration of signals acquisition and displaying option and confirm with OK automatic hardware detection The automatic hardware detection was successful The Following systems have been Found 0001705 which action do you want to run Zi Guided and configuration step by step Cre Tam Automatic configuration and displaying of data W Manual configuration of signals acquisition and displaying IPEmotion IPETRONIK GmbH amp Co KG 47 139 a Hz moton You will find detailed information on how to use the manual configuration option and operate an acquisition in chapter 5 7 2 The manual configuration Change into simulation mode Select the Change into simulation mode option and confirm with OK The simulation mode offers you the possibility to start a Dry configuration You will find detailed information on how to use the simulation mode option and operate an acquisition in chapter 5 7 2 The manual configuration Please note that this option is only available if no hardware is connected or an automatic detection of the connected devices was not successful In addition the simulation mode is set automatically as inactive at connecting and detecting hardware F automatic hardware detection The automatic hardware detection could not Find any connected hardware what should be your next step Which action do you wank bo run a Connect hardware and repeat detection
154. tion offers you the ability to use your own user defined columns To do so proceed as follows 1 Click into the headline of the column and open the menu Name 4 Sort Ascending with the right mouse button 7 il Sort Descending Clear Sorting 2 Select Column Chooser 56199999 2 56199999 3 Column Chooser 56199999_4 3 Drag the desired columns into the view window by keeping 5S Best Fit the left mouse button pressed Best Fit all columns IPEmotion IPETRONIK GmbH amp Co KG 57 139 Working with IPEmotion P MI OTI O N 6 2 3 Configuration dialogs The view Configuration dialogs contains all configuration possibilities of the systems or device selected in the tree list of the systems section The shown configuration tabs are based on the selected system or device and channel For a system you can for example define the following settings Es General CAN hardware a Options For a device you can for example set the following options General Extended Information The options for a channel are based on the selected device You can for example define the following settings General Format es Scaling E Display F Offset Sensor W Filter os Adjust For working with data loggers PEmotion offers you the ability to define the limit values of an acquisition There are visual and auditory signals for controlling the limits available Define the setti
155. to an IPEmotion file format The conversion can be done with an external program These user defined programs are easily generated on request and offer the ability to import signal channels into IPEmotion The signals of a database are assigned to signal groups and signals in which the affiliation of signals to a signal group decides about the possibility of using several signals on one remote device The order of the found hardware is sorted according to the fitness for use IPEmotion sorts the hardware in descending order accordingly to their fitness The following criteria are considered for sorting the hardware accordingly to the importance Sensor mode Sensor range differential consideration Priority IPEmotion offers the possibility to influence the order The available hardware components are based on the assigned priority of the system settings within the PEmotion gt Pluglns Settings This preselection of the system components facilitates the device selection and improves the system speed First of all you have to define the basic setting of PEmotion to use the configuration with signals Click on Options or open the dialog window IPEmotion Options by using the application menu and the Options function In the Basic settings section select the configuration type Signals configuration and the desired signal database mpc Confirm with the OK button To create a configuration with a signal database proceed
156. tton allows you to select of different installed plugin versions If a version description is marked with this version will always be used even if the latest version is installed The v button opens the manual pdf of the respective plugin if available The Download button opens the Plugin download page at www ipemotion com in your standard browser 5 3 4 Creating a support file With the Support file entry of the application menu you have the ability to create a support file and add and or edit own comments and error descriptions Mer Opening an existing File Save Save as Runtime version Print VIEW Options Support File Enter in the appearing Create support file screen an error description Accept the default location for the file To select another location click on the symbol After you have specified the location and a user defined file name click Save to return to the Create support file screen IPEmotion IPETRONIK GmbH amp Co KG 36 139 a P moton Create support file Description File C Dokumente und Einstellungen zw Eigene Dateien IPETRONIK IPEmotion Support IPEmotion_O001 OK Cancel After clicking on OK a zip file is generated that contains the error description as well as the following information a System information Windows version computer name free memory on the local drives Es Current configurations acquisition online view script conf
157. twise Exclusive Or operator P motion Op1 lt lt Op2 Op1 gt gt Op2 SIGN Op1 SIN Op1 SINH Op1 SQRT Op1 TAN Op1 TANH Op1 TESTBIT Op1 Op2 TESTMASK Op1 TESTMASKS Op1 Op2 TIME Op1 TIMER Op1 Op2 VALID Op1 VALID Op1 Op2 Op1 Op2 Op1 XOR Op2 IPETRONIK GmbH amp Co KG Op1 NaN Op2 NaN Op1 NaN Op2 NaN Op1 NaN Op1 NaN Op1 NaN Op1 NaN Op1 lt 0 0 Op1 NaN Op1 NaN Op1 NaN Op2 NaN Op1 NaN Op1 NaN Op2 NaN Op1 NaN Op1 NaN Op2 NaN Op1 NaN amp amp Op2 NaN Op1 NaN Op2 NaN Op1 NaN Op2 NaN 1 1 139 e Hz moton AND Corresponds to the logical And operator If both partial conditions are met value 1 is sent otherwise 0 Syntax Operand1 AND Operand2 Examples 2 4 gt 1 2 AND 21 3 lt 34 1 gt 1 2 4 lt 1 2 AND 21 3 lt 34 1 gt 0 2 4 gt 1 2 AND 21 3 34 1 zs 2 4 lt 1 2 AND 21 3 34 1 zs ANDB Corresponds to the bitwise And operator All bits which are set in Operand1 and 2 are also set in the result all other bits result in O Syntax Operand1 ANDB Operand2 Examples 27 ANDB 12 gt 8 27 ANDB 13 gt 9 27 ANDB 4 gt 0 CEIL Rounds a floating point number up to the next greater integer Syntax CEIL Operand Examples CEIL 13 53 gt 14 0 CEIL 2 41 gt 3 0 DIFF Differenti
158. various visual elements for different channels Click in the desired displaying area and open the menu with the right mouse button Select the corresponding horizontal or vertical division Es Change into the Channels tab and select the desired channels You also have the ability to use multiple selections Drag the selected channels into the right screen area by using the Drag amp Drop function Es After having displayed the necessary channels click on Start displaying You can now read your momentary values from the respective visual element but these values are not recorded and stored elements during a running acquisition You can if needed add a signal or edit the scaling without stopping the acquisition or extending the testing period Q IPEmotion is designed to allow settings of the screen configuration and the visual IPEmotion IPETRONIK GmbH amp Co KG 92 139 Working with IPEmotion P MI OTI O N f Please note that the online sampling rate is maximum 100 Hz tet e00 IPEmotion Signals Acquisition view Data manager Analysis Scripting Info Os E 00 00 89 Start displaying Start storing Add page Page 1 Fix Undo grid Delete et Properties Selection window Control Screen pages Layout Elements Edit View Lead Tachometer Channels Pages Channels Display Name gt 56199999 2 56199999 3 56199999 4 LI System status To stop the data displaying click on Stop displa
159. ve the possibility to read description files for the configuration of an acquisition Import all control units description files from the file format idf This file is based on the description language XML and contains additionally to the control unit information the diagnostic jobs to be run You define the job sequences of a specific control unit ECU The job sequences are a group of single jobs services and their defined order To use the function Import for diagnostic jobs in PEmotion proceed as follows e Using the Signals main navigation tab select the hardware with a CAN port Select the CAN input and click on the button Import v Select importing from a Diagnostics file E The dialog window Open file will be initialized Select from the dialog window Open file the desired description file idf with the job sequences to be imported IPEmotion IPETRONIK GmbH amp Co KG 66 139 e H zwMenon B Using the OK button the file will be imported and all included job sequences are listed in the channel overview in IPEmotion 6 2 7 Configuration with signal database The use of signal databases allows a signal oriented configuration IPEmotion offers you the ability to load a signal database from user defined files or databases If you have an own signal database available you can import it to IPEmotion and select your signals To access a specific signal database in IPEmotion the signal database must be converted
160. vigation tab depend on the activated hardware Please find further information on how to activate the used hardware systems by using the PEmotion Options in chapter 5 3 1 Plugins After the successful automatic hardware detection at starting IPEmotion all available systems modules and the channels with the respective properties are listed under the main navigation tab Signals The overview is divided into the following three sections IPEmotion IPETRONIK GmbH amp Co KG 55 139 Working with IPEmotion Po VI OTI O N A Systems Channels Es Configuration dialogs 6 2 1 Systems The view Systems contains all available systems and the corresponding modules with the respective type description and channel count At using the manual configuration of the connected systems click on the button Detect K The hardware detection starts on the basis of the connected devices and the data is shown in the overview At manually creating a configuration for the Dry configuration proceed as follows 1 Click on the button Add system and select the desired hardware 2 Click on the button Add component na to expand the existing system by further components and to set the respective number of the corresponding modules Please note that the button is only activated if the respective system is selected in the window Systems A taht 3 Click on the button Initialize to initialize the hardware and to synchronize and configure the
161. which edition meets your requirements and fits your needs the most You can select between the following editions of PEmotion Demo 30 days Basic Standard Professional Es Developer Demo 20 Standard Professional Developer days Multilingual user interface Help Predefined skins for day night visibility Integrated user guidance for system configuration Project settings for data managing using XML Automatic device detection configuration Integration of manufacturer specific data sources GK HH GK HH 0988 98 9 9 IPEmotion IPETRONIK GmbH amp Co KG 14 139 some P moton sinks 3 party hardware Exact time synchrony for all used interfaces and devices at data storing Channel based signal max 10 max 256 EN O acquisition with trigger signals signals storage groups max 1 max 2 storage storage group groups Direct storing of data in IAD DAT IAD DAT different data formats CSV CSV Excel 2003 XML Online visualization of data in the grid All Channel View Online visualization of data max 10 max 256 with diagrams and signals signals instruments max 1 max 5 page pages Customizing visualization scaling during a running acquisition Wide channel based calculation functionality max 10 max 206 signals signals Analysis Load and
162. ying Xe To allow a maximum use of your available screen size and clearly display the visual elements PEmotion offers the following functionalities Es Click on the Selection window button to hide the left overview window Click on the function overview of the main navigation tab and open the menu with the right mouse button Activate the Minimize the ribbon function to hide the function overview IPEmotion IPETRONIK GmbH amp Co KG 93 139 e Hz moton Alphanumerical display PEmotion V01 09 includes the alphanumerical display to set outputs Channels Digitalout O1 Digital input 01 DigitalOut 01 a Double click on the element or the Properties entry in the context menu to open the configu ration dialog You can now define the following settings B You can find the Output option within the channel view Select from the following mode the desired mode to increase decrease a value Es Not settable A Adjust freely e Adjust step by step Standard The alphanumerical display offers an input field for setting the values during an acquisition which can be opened with a double click on the visual element Confirm your configuration with Enter or cancel with Esc If you enter a value with a wrong format or which is out of the value range the input will be ignored If you have selected the Adjust step by step option 2 spin buttons are shown at the right side of the element for increasing decreasing the curr
163. ys are functional keys as well as A Z and 0 9 in any combination with breallocated by the system e g F1 Help F10 etc lal Select the desired visual element under the Elements point by clicking on the arrow IPEmotion IPETRONIK GmbH amp Co KG 91 139 Working with IPEmotion P MI OTI O N You have the ability to set user defined Jee configurations according the respective visual ege element Define for instance the following caption TESS properties for the yt chart Sent ey Sg Show grid General Grd color BE Sp i Time axis 4 yN Time axis Displaying behavior Time period 00 00 30 sl y ax IS Time display Absolute Relative Use caption Channel displaying Ka Adjustment Parallel Je ES Legend Position Left Alternating These configuration abilities offer a structured and ee ee SG ee individual displaying of the data a ee Channel view 4 Channel fe Axis marking CY From channel config m Scaling Linear O Logarithmic Line color Line width eer Show limit values m Legend Show Alignment Below Show unit C Es You can divide the screen area into several areas if D want to display different signals by using various visual elements Select the desired Layout corresponding layout symbol of the screen areas by clicking the PEmotion offers you the ability to divide every single displaying area into more areas By doing so you can use

IPEmotion User Manual - Gantner Instruments, Inc.

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