Manual - GarTech Enterprises
Contents
1. 137 Section 1 Closed Loop Control 138 Section 2 Digital DIS plays 144 Section 3 GAUgES 148 Section 4 INd CatOrS 152 Section 5 Switches sees sic ew a cine te mn ie em es me ROH 156 Section 6 Interlocking COntrolSs 160 Section 7 Panels ac a a a aa TT a 164 Chapter 8 Module Descriptions 167 OVerV eW 167 Section 1 Main Module 168 Section 2 Wavemaker Module2. 171 Section 3 Analog Module Description 174 Section 4 Switch Module Description 176 Section 5 Resistive Loads Module Description 178 Page 1 The Load Box User Interface System Introduction Introduction LUIS Physical Description The Load Box User Interface System LUIS is an engine simulator used to facilitate bench top engine control system hardware and software testing The second generation LUIS system LUIS Gen2 provides expanded capabilities from the original LUIS The LUIS is a bench top PC controlled customizable load box A standard LUIS Gen2 system configuration contains Main Module Wavemaker Module 2 Analog Modules Switch Module Resistive Loads Module Injector and Application Specific Loads Module In addition the user can request additional modules of each type depending on what is needed for their application New modules are constantly being developed along with the ability to create custom modules for specific applications Check with the GarTech engineering staff for additional information This is a picture of a standard LUIS Gen2 system configuration Continued on n
3. 60 Section 4 Printing a Configuration File SUmMmary 62 Chapter 3 Interpolation Tables 65 OVerV eW 65 Section 1 Creating an Interpolation Table 66 Section 2 Editing an Interpolation Table 72 Section 3 Importing an Interpolation Table 74 Section 4 Deleting an Interpolation Table 76 Chapter 4 Waveforms 7 8 OVerV eW 78 Section 1 Working with Gen2 Waveforms 79 Section 2
4. Figure 47 This is an example of the WaveMaker Management window open to the WaveMaker LUIS Gen tab Management Window Waveren Waregem T Wk LUFA se ecg a SS e Lergh 7200 a Hardware Synchronizing Master Ext Sync Drive Slave Master Channel 60 2 missing teeth low 60 2 nem teeth hi a aa Description Create or Add Waveforms to be used in the configuration To Add a Waveform click Add and give it a name Configure the channel and click Save 3 r e Figure 48 This is an example of the Select Items window Select Items Window l 60 2 missing teeth low 6 1 60 2 missing teeth hi 24 1 hhp hall Description Select items from the list and click Import to transfer the selected items into the configuration Page 86 Renaming a Gen2 Waveform Introduction After a waveform has been defined its name can be changed through the WaveMaker Management window Renaming a This table outlines the steps for renaming a waveform Gen2 Waveform With the appropriate configuration file open from the Home tab click the Waveforms Channels icon Result The WaveMaker Management window displays Click the LUIS Gen2 tab at the top of the window Result The interface for defining Gen2 waveforms and assigning them to channels displays On the left hand side of the window in the waveform library field highlight the waveform to rename
5. 4 In the Component Options section use the Gauge Type option to set if the gauge is Round or Slider Gauges Continued Figure 80 Gauges Figure 81 Gauge Properties Intake Temp DegC Page 149 These images are examples of both the round and slider gauge controls BackgroundImageLayout BorderStyle Component Size Gauge Font Text Color Text Font E Component Options Enable Gauge Type Interlock Dependencies E InterlockSetup Channel Type Interpolation Table TableName Layout Location B Scale Digits Displayed Maximum Minimum Multiplier E Server Name B Text TextLine1 TextLine2 Value Definition Default Value Gauge Value True False C GradientActiveCaption C fone Tie None 180 220 Microsoft Sans Serif Spt HB ControlText Microsoft Sans Serif 8 75pt True Round Collection Analog Output 22 Analog Output B Hardware EERE Analog Output Analog Output 22 1 0 number associated with this control Continued on next page Page 150 Gauges Continued Configuring the This table continues to outline the steps for configuring a Digital Display Gauge Control control Continued Click lt OK gt to close the dialog box Result The dialog box closes and the Channel and Type under Hardware Setup are filled in with the selection In the Interpolation Table section use the down arrow next to the Table Name option
6. Figure 45 This is an example of the New Waveform Creation dialog box New Waveform Enter the name of the Waveform Continued on next page Page 82 Defining a Gen2 Waveform Continued Defining a This table continues to outline the steps for defining a waveform Gen2 Waveform Continued Continued Copy from an alternate source Open the source and copy the such as Microsoft Excel data Return to the WaveMaker Management window right click in the first cell and select the Paste option from the menu As the waveform data is entered the Length field is automatically populated with the number of cells When the waveform has been defined click the lt Save gt button Note To save the changes permanently to the configuration file click the lt Save gt icon on the LUIS Home tab Continued on next page Page 83 Defining a Gen2 Waveform Continued Figure 46 This is an example of the WaveMaker Management window open to the WaveMaker LUIS Gen2 tab Management Window Waveren Waregem T a ee H pee is hall Add New New Name Server 7 Length 7200 input Hardware Synchronizing Master F Et Sync Drive Slave Master Channel 60 2 missing teeth low 6 60 2 ne teeth hi Description Create or Add Waveforms to be used in the configuration To Add a Wavefom click Add and give t a name Configure the channel and click Save z G
7. Figure 21 This image is an example of one tile enlarged within a window Enlarged Tile Figure 22 This is an example of the Modify Delete Window Pane window Modify Delete Window Pane Window Frequency Tile Layout p T Min Tile Columns Ea Min Tile Rows 2 Figure 23 This image an example of a window with two tiles and a minimum of 2 rows Window with 2 Rows Continued on next page Page 46 Working with Tiles Continued Exercise Working with Tiles The purpose of this exercise is to familiarize users with the manipulation of tiles in the LUIS Gen2 environment This exercise assumes that the LUIS Gen2 hardware and software is already installed the hardware is connected and turned on and the software is open with the configuration file saved in the previous exercise open Reorganize tiles 19 Grab the title bar of the Speed tile and drag it to the other side of the Tach tile Result The Speed tile moves to the other side of the Tach tile as shown in Figure 24 Deleting tiles Right click on one of the tiles in the Frequency window and select the Add Tile option Result The Tile Creation Entry widow displays Right click on the Test tile and select the Delete Tile option A dialog box displays to confirm the deletion Click lt Yes gt to delete the tile Result The tile is removed and the other tiles automatically resize 21 In the field type Test and click lt OK gt Result A new tile named Test is add
8. Figure 68 Toolbox Dialog Box Figure 69 The Hardware T O Selection Dialog Box This is an example of the Toolbox dialog box i Appearance Allow Resize False Background Color E GradientActiveCaption Background Image C none BorderStyle None Component Size 200 240 Gauge Font Microsoft Sans Serif 9 75pt Text Color E ControlText Text Font Microsoft Sans Serif 12pt E Component Options FreezeValue True Gauge Type Round Interlock Setup Hardware E Hardware Setup MainModuleJ1939Port APlugin Channel EEC1 der Torque Modes Type Main ModuleJ1 st APlugin EB Interpolation Table TableName Scale Maximum 100 Minimum 0 Multiplier 1 Scale Resolution 1 E Server Name LUISGen2_ 1 B Text TextLine1 Default Name TextLine2 Units B Value Definition Default Value 0 Gauge Value 0 Hardware Setup 1 0 number associated with this control This is an example of the Hardware I O Selection dialog box Child 2 Analog Output LUISGen1 Child 2 Main LUISGen1 Child 2 Switch LUISGen1 Main Module MainModuleJ1939PortAPlugin Parent Analog Output LUISGen1 Parent Main LUISGen1 Parent Switch LUISGen1 mT Resistive Load Sidecar Analog Output LUISGen1 Sidecar Main LUISGen1 Sidecar Switch LUISGen1 SwitchModule WaveMaker Wavemaker LUISGen1 7 Hardware 1 0 Selection e lalea jea Hardware Unit Channel PeakAdapterPlugin n n eee Cancel Child 1 Switch LUISGen1 EEC1 lt Eng
9. Page 84 Importing a Gen2 Waveform Introduction Waveforms can be imported from other configuration files Remember that each waveform within a configuration file must have a unique name The next section describes how to rename a waveform Importing a This table outlines the steps for importing a waveform Gen2 Waveform With the appropriate configuration file open from the Home tab click the Waveforms Channels icon Result The WaveMaker Management window displays as shown in Figure 47 Click the LUIS Gen2 tab at the top of the window Result The interface for defining Gen2 waveforms and assigning them to channels displays On the left hand side of the window in the Waveform Definition section click the lt Import gt button Result The Import Waveform dialog box displays Browse for and select the configuration file that has the desired waveform s and click the lt Open gt button Result The Select Items window shown in Figure 48 displays listing all the waveforms defined in the selected configuration file Note To select a Genl waveform file change the file type dropdown list from 12c to cff Select the waveform s to import and click the lt Import gt button Note To import all the waveforms in the configuration click the lt Select All gt button Result The waveforms selected are imported and display in the library field Continued on next page Page 85 Importing a Gen2 Waveform Continued
10. Working with Gen1 Waveforms 99 Chapter 5 J1939 Sensors 0n n n neeneneneneonenenenensonenenenenensonenenensnsnseneneneneneenenenenensnnoneneneneneon 109 OVerV EW 109 Section 1 Setting up J1939 MessageS 110 Setting Up J1939 Parameters 120 Section 3 Assigning J1939 Parameters to Gauges 124 Chapter 6 ServerS 129 OVerV eW 129 Section 1 Setting Up Servers 132 Section 2 Deleting Servers i ac ees 134 Chapter 7 Controls 137 OVerV EW
11. False E Gradient ActiveCaption C fone None 200 240 Microsoft Sans Serif 9 75pt style Bold E ControlText Microsoft Sans Serif 12pt True Round LUISGen2_ 1 VR_00 J1 16 J1 17 Continued on next page Page 52 Working with Controls Continued Exercise Working with Controls The purpose of this exercise is to familiarize users with the manipulation of controls in the LUIS Gen2 environment This exercise assumes that the LUIS Gen2 hardware and software is already installed the hardware is connected and turned on and the software is open with the configuration file saved in the previous exercise open Adding controls 1 On the Tools tab grab and drag the Gauge icon to the Speed tile on the Frequency window Note When the gauge is dropped on the window a warning symbol displays on it This indicates that the control has not yet been configured Formatting a control s operation Right click on the gauge in the Speed tile on the Frequency window and select the Properties option from the menu Result The Toolbox dialog box displays as shown in Figure 28 In the Hardware section next to the Hardware Setup field click the lt gt button Result The Hardware I O Selection dialog box displays as shown in Figure 29 Result The Channel field populates with the available channels in the selected hardware unit In the Channel field select Digital_CH 1 and click lt OK gt Result The Hard
12. False E GradientActiveCaption C none 128 105 HB ControlText mVolts Counts Hl Control Text Microsoft Sans Serif 8 25pt Analog Output Analog Output 4 INTAKE_TEMP Page 148 Section 3 Gauges Gauges Introduction The Gauge control provides a round or slider gauge to display and interact with the value of the assigned channel Gauges The Gauge control consists of three elements This table and Figure 80 describe the Gauge control Displays a user defined label for the control Graphical display of the value of the control Digital Display Digital readout of the value of the control Configuring the This table outlines the steps for configuring a Digital Display control Gauge Control Add a Gauge shown in Figure 80 to a tile by dragging it from the Tools tab Right Click the control and Select the Properties option from the menu Result The Toolbox dialog box displays as shown in Figure 81 In the Component Options section use Enable option to determine if the value of the control should be enabled True or disabled False In the Hardware section click the lt gt button next to the Hardware Setup option Result The Hardware I O Selection dialog box displays In the Hardware Unit field select the appropriate module Result The channels available in that module displays in the Channel field In the Channel field select the appropriate channel Continued on next page
13. Figure 52 WaveMaker Management Window Page 93 This is an example of the WaveMaker Management window when defining a digital channel for LUIS Gen2 LUIS Gen2 LUIS Gent Card Output mV jolo olo o uona wN l e e o Ilelelelelololejlolojo WaveMaker Management Waveform Definition Name 4 1 EPS Length 7200 Hii Channel Definition Name Digital_CH 1 Server WaveMaker_ 1 X we Rea Hardware Synchronizing Master E Slave Digtal Card Settings Ou Te Teeth Rev PWM HB Freq 0 Ext Syne Drive Master Channel 60 2 ESS 60 2 Missing Teeth Asbitrary_CH 1 Arbitrary _CH 2 Arbitrary _CH 3 Arbitrary _CH 4 Arbitrary _CH 5 Arbitrary _CH 6 Arbitrary CH7 Arbitrary CHES Digtal_CH 2 Digtal_CH 3 Digtal_CH 4 Description Create or Add Waveforms to be used in the configuration To Add a Waveform click Add and give it a name Configure the channel and click Save o Page 94 Exercise Defining and Assigning a Gen2 Waveform Exercise The purpose of this exercise is to familiarize the user with using the Defining and WaveMaker Management window to define and assign Gen2 waveforms Assigning a Gen2 Waveform Define a waveform On the Home tab click the Waveforms Channels icon Result The WaveMaker Management window opens as shown in Figure 53 Click the LUIS Gen2 tab at the top of the wind
14. J1 31 Continued on next page Page 32 Working with Windows Continued Rows and Columns Renaming a Window Deleting a Window Rows and columns within a window help organize the tiles within the widow The number of rows and columns set in a window can be changed in a couple of ways From the Tools tab click the Modify Window icon to open the Modify Delete Window Pane window shown in Figure 9 Select the window to modify from the Window Panes field and change the number of rows and or columns on the right When finished click the lt Apply gt button and then lt Close gt Right click in any empty space in the window and select the Change Rows or Change Columns option A window s name can be changed in a couple of ways From the Tools tab click the Modify Window icon to open the Modify Delete Window Pane window Select the window to modify from the Window Panes field and change the window s name on the right When finished click the lt Apply gt button and then lt Close gt Right click in any empty space in the window and select the Rename Window Pane option To permanently delete a window from the configuration right click in an empty space in the window and select the Delete Window Pane option from the menu Alternatively from the Tools tab click the Modify Window icon to open the Modify Delete Window Pane window Select the window to delete from the Window Pane
15. This diagram and table describe the basic LUIS Gen2 GUI environment GaRTECH ENTERPRISES INC Company Profile le Continued on next page Page 5 Software Continued Windows Downloading and Installing Drivers Downloading and Installing Software Activities within the LUIS Gen2 environment occur in windows which display in the workspace Like any Windows 7 application windows can be closed by clicking the X in the right hand corner By default the Startup window displays when LUIS is started This includes a list of recently used configurations new help topics news and the Gartech website The LUIS software can be configured to not show the Startup Window by clicking the Defaults menu option on the Home tab and changing the No Startup Page option Before the LUIS Gen2 hardware and software can be installed the driver must be downloaded and installed Go to www gartechenterprises com and visit the download center to download and then follow the on screen steps to install To install the LUIS Gen2 graphical user interface visit the www gartechenterprises com download center and download the software Follow the on screen instructions to install the software Page 6 Section 2 Hardware Overview Introduction LUIS Gen provides the ability to run a standard hardware configuration or add additional modules as needed In This Section This table outlines the topics covered in this section Ordering
16. Continued Resizing Controls Deleting Controls Formatting Controls A control can be resized by right clicking on it and selecting the Allow Resizing option Once resizing has been activated click and drag the edges of the control to resize it Once the control is the desired size right click it and select the Lock Size option to prevent accidentally resizing again To delete a control right click on the control and select the Delete option To format a control right click the control and select the Properties option from the menu The ToolBox dialog box opens as shown in Figure 27 The properties list varies with the type of control being formatted For more information about formatting controls see Chapter 7 Controls beginning on page 136 Continued on next page Working with Controls Continued Page 51 Figure 27 This is an example of the Toolbox dialog box The options available in the The Toolbox Toolbox depend on the type of control selected Dialog Box ToolBax Properties 24 E Appearance Allow Resize Background Color Background Image BorderStyle Component Size Gauge Font Text Color Text Font Component Options Freeze Value Gauge Type Interlock Setup Hardware Hardware Setup E Interpolation Table TableName Scale Maximum Minimum Multiplier Scale Resolution E Server Name Text TextLine1 TextLine2 E Value Definition Default Value Gauge Value Text Line2 Units of the Gauge
17. Drive option This channel will automatically sync with whichever channel on the external sync drive was set up as the external sync master The Card Settings section will differ depending on whether the user is defining an arbitrary or digital channel Channel Type Settings Arbitrary In the Waveform field select the desired waveform from the list Note Only waveforms in this configuration are available If the Input setting is set to RPM the Cycles Rev must be set correctly to complete the required calculations In the Cycles Rev field type the number of cycles per revolution for the waveform data pattern Note Two revolutions are typically used to make a complete cycle of data The Offset field allows arbitrary channels that sync with each other to shift the waveform by a number of data points If an offset is required type the amount to offset in this field Continued on next page Page 91 Assigning a Gen2 Waveform Continued Figure 51 WaveMaker Management Window This is an example of the WaveMaker Management window when defining an arbitrary channel for LUIS Gen2 ma A e ty ear 2a __ Card Output nv Waveform Definition Channel Definition Name Add New Name Arbitrary _CH 1 Server WaveMaker 1 z sve i engh 0 Deme rout RPM x Import Hardware Synchronizing Arbitrary Card Settings f vaser
18. E Gradient ActiveCaption L fone Tile WaveMaker Arbitrary_CH 1 FREQ 172 38 WaveMaker_ 1 Continued on next page Page 142 Closed Loop Control Continued Configuring the This table continues to outline the steps for configuration a Closed Loop Closed Loop Control Control Continued The Value Definition section can be used to set the Gain Value and Percent Load Value These values can also be set using the slider or the digital display on the panel The rest of the options on the Toolbox dialog box are used to control the look of the control These can be set as desired by the user Continued on next page Closed Loop Control Continued Closed Loop Control Properties ToolBox Properties BHIE E BE DE oo an nE Appearance Allow Move Allow Resize Background Color Background Image Background mageLayout Component Size Gauge Font Text Color Text Font Hardware ECM Source ID Hardware Setup Interpolation Table TableName Layout Location Server Name Value Definition Gain Value Percent Load Value Page 143 This is an example of the Toolbox dialog box for a Closed Loop Control x True False _ GradientActiveCaption L none Tile WaveMaker Arbitrary_CH 1 FREQ 172 38 WaveMaker_ 1 Page 144 Section 2 Digital Displays Digital Displays Introduction The Digital Display control provides a simple digital display of engineering units co
19. E Be Sme ne Wovcom ezmagin Cycles Rev 2 Save x APAR Offset 0 l Master Channel 60 2 missing teeth low a Abitrery_CH 2 i 60 2 missing teeth hi Arbitrary _CH 3 f 24 1 hhp hall Arbitrary CH 4 test waveform Arbitrary _CH 5 Arbitrary _CH 6 2 Atbitrary_CH 7 I Arbitrary _CH 8 i Digital_CH 1 Digital_CH 2 Digital_CH 3 Digtal CH 4 Digital_CH 5 Digital_CH 6 ai Description Create or Add Waveforms to be used in the configuration To Add a Waveform click Add and give it a name Configure the channel and click Save I I z J Continued on next page Page 92 Assigning a Gen2 Waveform Continued Assigning a This table continues to outline the steps for assigning a waveform to a Gen2 channel Waveform Continued Continued Channel Type Settings Digital In the Output field select the correct output type If the number of teeth per revolution of the flywheel is necessary enter this number in the Teeth Rev field If PWM operation is desired for the channel enter its heart beat frequency in the PWM HB Freg field If PWM operation is not desired this value should be set to 0 When all the assignments have been made click the lt Save gt button Note This button saves the changes to the waveforms but the configuration needs to be saved to make the changes permanent in the configuration file Continued on next page Assigning a Gen2 Waveform Continued
20. Engineering Units ForeColor Hardware Output Units Table Units Text Color Text Font Component Options Interlock Setup Hardware Hardware Setup Channel OOBO8 Type Interpolation Table TableName O Scale Maximum Minimum Multiplier Scale Resolution o Table Value Hardware Setup 1 0 number associated with this control False E Gradient ActiveCaption L fone 128 105 E Control Text mVolts Counts Hl ControlText Microsoft Sans Serif 8 25pt Analog Output Analog Output 4 Analog Output 4 Analog Output Test Table 1273 233 1 0 LUISGen2_ 1 Intake Temp eeNy Page 146 Digital Displays Continued Configuring the This table continues to outline the steps for configuring a Digital Display Digital Display control Control Control In the Hardware section click the lt gt button next to the Hardware Setup option Result The Hardware I O Selection dialog box displays In the Hardware Unit field select the appropriate module Result The channels available in that module displays in the Channel field In the Channel field select the appropriate channel Click lt OK gt to closed the dialog box Result The dialog box closes and the Channel and Type under Hardware Setup are filled in with the selection In the Interpolation Table section use the down arrow next to the Table Name option to select the appropriate interpolation table In the Server section use the do
21. Ensure that the parent control has been set up Right click the control that should be set up as the child Result The ToolBox dialog box displays In the Interlock Setup section click the lt gt button Result The Interlock Options dialog box displays as shown in Figure 89 In the Interlock section set the interlock to be Non Inverting or Inverting When the interlock is set to inverting the child control value changes in the inverse of the parent In the Hardware Unit section select the hardware unit of the parent control Result The Channel field populates with the available channels In the Channel section select the channel of the parent control In the Interlock On Value section select the appropriate value on which to interlock When finished click the lt OK gt button Result The dialog box closes and the Channel InterlockOperation InterlockValueName and Type fields are filled in on the ToolBox dialog box Continued on next page Page 161 Interlocking Controls Continued Figure 89 This is an example of the Interlock Options dialog box Interlock Options Dialog nese O O Box i Channel a Interlock Interlock On Value Analog Output a VBATT Relay 1 None Engineering Value Child 1 Analog Output aE Switched VBATT Relay 1 Child 1 Main LUISGen1 Switched VBATT Relay 2 Non Inverting Hardware Value Child 1 Switch LUISGen1 Switched VBATT Relay 3 inveti Child
22. Gen2 supports both Generation and Generation 2 waveform management Generation uses the Peak Adapter servers and the available waveforms are resident in the firmware Generation 2 uses the WaveMaker servers and users can define and import waveforms Each waveform must have a unique name within a configuration file The Wavemaker Management window is used for viewing and defining waveforms as well as for assigning waveforms to channels This table outlines the topics covered in this chapter Working with Gen2 Waveforms Working with Genl Waveforms Page 79 Section 1 Working with Gen2 Waveforms Overview Introduction LUIS Gen2 waveforms use the WaveMaker server The user defines the waveforms on the server and then assigns these waveforms to either digital or arbitrary channels LUIS Gen2 has 8 specific arbitrary channels and 10 specific digital channels In This Section This table outlines the topics covered in this section Defining a Gen2 Waveform Importing a Gen2 Waveform Renaming a Gen2 Waveform Assigning a Gen2 Waveform 88 Exercise Defining and Assigning a Gen2 Waveform 94 Page 80 Defining a Gen2 Waveform Introduction Waveforms are defined within a configuration on the Waveform Management window The left hand side of this window provides the interface for defining waveforms as well as maintaining a list of all the waveforms in this configuration Defining a This table outlines the steps for definin
23. Hardware Channels can be set to be synchronized When using this option Channel 1 Synchronizing will be used as the master and any other channel that is set to sync will be a slave to that channel Assigning a This table outlines the steps for assigning a waveform to a channel Gen1 Waveform With the appropriate configuration file open from the Home tab click the Waveforms Channels icon Result The WaveMaker Management window displays Click the LUIS Gen1 tab at the top of the window Result The interface for assigning the Gen1 waveforms resident in the firmware displays as shown in Figure 55 3 In the Server field select the correct server for the channel to assign 4 To assign a waveform ensure that Channel 1 is selected If setting up a digital channel select the desired channel from the Result The channel s information populates the fields In the nput field select the correct input In the Channel Definition section select Arbitrary Digital or Digital Simulation Note Waveforms can only be assigned to arbitrary channels 7 If this channel should be synced to Channel 1 select the Sync option Continued on next page Page 101 Assigning a Gen1 Waveform Continued Figure 55 This is an example of the WaveMaker Management window open to the WaveMaker LUIS Gen tab Management LUIS Gen1 Window en DR Wavefoms for LUIS Gen1 are Stored in the Fimware Description 60 2 6 1 Hall ISB 2
24. Page 137 Chapter 7 Controls There are four types of controls used within the LUIS Gen2 environment to interact with the hardware Closed Loop Control Digital Display Gauge and Switch In addition there is the Panel control that provides the option of adding labels How these controls are manipulated within the GUI is explained in Chapter 2 Navigating the LUIS Gen2 GUI This chapter provides additional information about setting up and using each control type to interact with the hardware This table outlines the topics covered in this chapter Closed Loop Control 138 Digital Displays 143 Gauges 148 Indicators 152 Switches 154 Interlocking Controls 160 Panels 163 Page 138 Section 1 Closed Loop Control Closed Loop Control Introduction The LUIS Gen2 can be set to run closed loop engine speed control In this mode the engine speed signal generated by the load box responds similarly to an actual engine J1939 public broadcast must be running in the ECM to run in closed loop mode Closed Loop The Closed Loop Control Panel consists of five elements Figure 74 and this Control Panel table describe these elements Element Description Percent Load Either the slider or the digital display can be used to set the percent load for the model Gain Adjust Either the slider or the digital display can be used to set the gain adjust for the model lt Closed Loop gt This button is used to set the loop to closed or open
25. Result The Configuration File is saved Continued on next page Page 59 Working with Controls Continued Figure 33 This image depicts the Paste Special dialog box Paste Special e Paste Special Appearance E Allow Move V Component Font Allow Resize E Component Text Color V Background Color Text Font Control Specific E Text Color Size Border Style Operation E Interlock E Scale Hardware Server E Interpolation Table E Default Value Figure 34 This is an example of pasting options from one gauge to another Reformatting Control E Throttle switches Pressures Temps Misc Loads Default Remote_Trattle Closed Loop Control Panel x Percent Load Gain Adi just ONIDLE OFF IDLE o 0 on OFF Closed Loop engine speed control panel Page 60 Section 3 The View and Help Tabs The View and Help Tabs The View Tab The View tab is a way to easily navigate between all windows within a configuration whether or not they are hidden It is also the way to unhide a hidden window The Help Tab The Help tab provides information about the current version of LUIS as well as on line help Page 61 Notes Page 62 Section 4 Printing a Configuration File Summary Printing a Configuration File Sum
26. The button reads the current status so when the button says lt ON gt it indicates that closed loop mode is on lt Start gt This button is used to start closed loop control This control is only available when the Closed Loop mode is ON lt Reset gt This button sets the model back to zero load rpm This control is only available when the Closed Loop mode is ON Continued on next page Page 139 Closed Loop Control Continued Figure 74 This is an example of a Closed Loop Panel control Closed Loop Panel 0 Description engine model Continued on next page Page 140 Closed Loop Control Continued Configuring the This table outlines the steps for configuration a Closed Loop Control Closed Loop Control Add a Closed Loop Control as shown in Figure 75 to a tile by dragging it from the Tools Tab Right Click the control and Select the Properties option from the menu Result The Toolbox dialog box displays as shown in Figure 76 In the Hardware section the ECM Source ID is the J1939 source address of the ECM that should be used for the control when running multiple ECMs If only running one ECM the source ID will be 0 In the Hardware section click the lt gt button next to the Hardware Setup option Result The Hardware I O Selection dialog box displays 5 In the Hardware Unit field select the Wavemaker Result The channels available in that module displays in the Channel field In th
27. Waveform click Add and give it a name EZE 5000 Configure the channel and click Save QQ ST Continued on next page Page 96 Exercise Defining and Assigning a Gen2 Waveform Continued Exercise The purpose of this exercise is to familiarize the user with using the Defining and WaveMaker Management window to define and assign waveforms Assigning a Waveform Continued Assign a waveform On the right hand side of the WaveMaker Management window in the Channel Definition section from the Server dropdown list select WaveMaker_ 1 Result The list of channels available in WaveMaker_ 1 display in the channel list field The first channel is highlighted and its information displays in the fields Ensure that Arbitrary_CH 1 is highlighted in the channels list In the Arbitrary Card Settings section from the Waveform dropdown list select 60 2 Missing Teeth Test Click the lt Save gt button In the Hardware Synchronizing section select the Slave option From the Master Channel select the Arbitrary_CH 1 option Note This sets Arbitrary_CH 2 to be synced with Arbitrary_CH 1 In the Arbitrary Card Settings section from the Waveform dropdown list select 60 2 Missing Teeth Test Click the lt Save gt button Result The waveform information is saved Close the WaveMaker Management window and save the configuration Continued on next page page 10 In the channel list field click on Arbitra
28. from the Tools tab Right Click the control and Select the Properties option from the menu Result The Toolbox dialog box displays as shown in Figure 87 disabled False In the Switch Type field select either Toggle or Momentary In the SwitchClosedText field type the word that should display when the switch is closed In the SwitchOpenText field type the word that should display when the switch is open 3 In the Component Options section use the Enable option to determine if the value of the control should be enabled True or Continued on next page Switches Continued Page 157 Figure 86 This image is an example of a Switch control Switches Oil Pressure Figure 87 This is an example of the ToolBox dialog box for a switch control Switch Control Properties ToolBox x Properties o AME E Appearance Allow Resize False Background Color C GradientActiveCaption Background Image L none BorderStyle None Component Size 100 70 Switch Font Microsoft Sans Serif 8 25pt Switch Text Color Hl o o 192 Text Color HB ControlText Text Font Microsoft Sans Serif 8 25pt E Component Options Freeze Value False Interlock Setup Switch Type Toggle SwitchClosed Text ON SwitchOpen Text OFF E Hardware Hardware Setup Relay Relay 13 E Interpolation Table TableName switch E Scale Multiplier 1 Scale Resolution 1 E Server Name LUISGen2_ 1 E Text TextLine1 SW_13 Text Line2 J2 67 E Value Definition Default Value O
29. is a specific voltage that LUIS Gen2 outputs The Table Management window within the LUIS Gen2 GUI provides the capability for building interpolation tables In This This table outlines the topics covered in this chapter Chapter Creating an Interpolation Table Editing an Interpolation Table Importing an Interpolation Table Deleting an Interpolation Table Page 66 Section 1 Creating an Interpolation Table Creating an Interpolation Table Introduction Interpolation tables can be created from the Home tab by clicking the Tables icon The data can be entered manually or cut and pasted from another application such as Microsoft Excel Creating an This table outlines the steps for creating an interpolation table Interpolation Table From the Home tab click the Tables icon Result The Table Management window opens as shown in Figure 36 Click the lt Add New gt button Result The New Table Creation dialog box displays as shown in Figure 37 In the field type the name of the new interpolation table and click Result The new table name displays in the name field and the default values fill in the other fields The table name also displays in the Tables field on the left hand side of the frame In the Input Units field type the engineering units of the table input or use None In the Output Units field type the units of the table output In the Resolution Scalar field type the multiplier that should b
30. of the control These can be set as desired by the user Continued on next page Indicators Continued Figure 85 Indicator Control Properties Page 155 This is an example of the ToolBox dialog box for an Indicator control ToolBox Properties val E Appearance Allow Resize Background Color Background Image BorderStyle Component Size Indicator Color Text Color Text Font Hardware E Hardware Setup Channel Type E Server Name E Text TextLine1 TextLine2 Value Definition Indicator Value False _ GradientActiveCaption C none None 55 65 Red HE ControlText Microsoft Sans Serif Spt Resistive Load Resistive Load 2 Resistive Load 2 Resistive Load LUISGen2_ 1 Fan Clutch Page 156 Section 5 Switches Switches Introduction The Switch control provides the ability to interact with On Off or True False values in the hardware Switches can be set as a toggle where the value remains in the current state until the switch is tripped again or momentary which trips the switch and then immediately returns to the default state Switches The Switch control consists of two elements Figure 86 and this table describe these elements Displays a user defined label for the control Graphical button that trips the switch Configuring the This table outlines the steps for configuring a Switch control Switch Control Add a Switch shown in Figure 86 to a tile by dragging it
31. on the Properties dialog box are used to control the look of the control These can be set as desired by the Continued on next page Switches Continued Figure 88 Switch Control Properties ToolBox Properti 8 Oo O88 oO A jes 632 E Appearance Allow Resize Background Color Background Image BorderStyle Component Size Switch Font Switch Text Color Text Color Text Font Component Options Freeze Value Intefock Setup Switch Type SwitchClosed Text SwitchOpen Text Hardware Hardware Setup Interpolation Table TableName Scale Multiplier Scale Resolution Server Name Text TextLine1 TextLine2 Value Definition Default Value Switch Value Page 159 This is an example of the ToolBox dialog box for a switch control False E Gradient ActiveCaption L none None 100 70 Microsoft Sans Serif 8 25pt Hl o o 192 HM Control Text Page 160 Section 6 Interlocking Controls Interlocking Controls Introduction LUIS Gen2 supports the option of interlocking controls causing the values of the interlocked control s to change with the parent control It is important to note that interlocks are only one level deep Multiple child interlocks ca not be nested The interlocking options for the child controls are set up in the ToolBox dialog box for the controls Interlocking This table outlines the steps for setting up a child control to be interlocked Controls with another control
32. plugged in backwards o6 Using the AC Power Cable show in Figure 3 plug the LUIS in To complete the connection to the PC plug a standard USB cable into the L comm port on the back of the LUIS Gen2 and into a USB port on the PC Continued on next page Page 11 Setting Up a Standard LUIS Gen2 Continued Figure 3 This picture illustrates the AC power connection AC Power Supply Page 12 Updating Devices Introduction Updating Firmware Gartech may periodically issue firmware upgrades for the modules When upgrades are made available via the Gartech website the user must download the file to the PC before downloading to the hardware This table outlines the steps for updating firmware Download the appropriate firmware file from the Gartech website to the local PC Ensure the LUIS Gen2 box is connected to the PC and running From the LUIS Gen2 software Home tab click the Devices icon Result The Devices window shown in Figure 4 displays and the servers display in the Servers field In the Servers field select the correct server Result The devices available on that server display In the Servers field select the correct device Result The information for the device fills in on the right hand Click the lt Select File gt button Result The Firmware File dialog box opens where the user can browse and select the file downloaded in Step 1 Once the file is selected and the user clicks lt
33. via Peak Adapter Offset 0 engine Sp TSC1 Engine Retarder Torque Modes Driver s Demand Engine Torque Source Address of Controlling Device Description Uses the LUIS Gen2 hardware to broadcast the message Figure 61 This is an example of the Configure the Baud Rate for Can Bus dialog box Configure the Baud Rate for Configue the Baud Rate for CAN Busi ba a Can Bus Dialog Box CAN Bus Plugin MainModuleJ1939PortAPlugin Baud Rate Each Plugin connects to a specific CAN port This is only for Transmitting Page 116 Setting Up J1939 Messages to Receive Setting Up This table outlines the steps for setting up J1939 messages to receive through J1939 Messages the Peak Adapter servers to Receive With the appropriate configuration file open from the Home tab click the SAE J1939 Sensors icon Result The J1939 Datalink Sensor Simulation Management window displays as shown in Figure 62 On the left hand side of the window click the lt Add New gt button Result The New Message Creation dialog box displays as shown in Figure 63 3 In the field type the unique name of the J1939 message and click lt OK gt Result The name displays in the Name field as well as in the message list below Defaults are loaded into the other fields In the Desc field type a description of the message In the ZD field type the message ID The message ID is the Parameter Group Num
34. 0 OIL_PRS_SW INTAKE_TEMP Max Raw Value 1023 FUEL_PRS Exhaust_Pressure Crankcase_Pressure Coolant_Tempereture Y Description Create or Add Tables to be used in the configuration To Add a Table enter all data on the worksheet including breakpoints and click Add Continued on next page Page 70 Creating an Interpolation Table Continued Creating an This table continues to outline the steps for creating an interpolation table Interpolation Table Continued Once the interpolation table is set up the table values should be entered Note Before entering values ensure that the correct table is highlighted in the Tables list Enter values manually Type the values into the table on the left hand side of the window using the TAB key to move between fields Paste from another program Copy the values from the other program Return to the Table Management window and right click in the first cell of the table on the left hand side and select Paste from the menu Once the table has been set up and the values have been entered click the lt Save gt button Result The interpolation table is saved and will be available in the Interpolation Table Table Name drop down list for formatting controls 13 Close the Table Management window and save the configuration file Continued on next page Page 71 Creating an Interpolation Table Continued Figure 39 Table
35. 2 Analog Output LL Switched VBATT Relay 4 ing Child 2 Main LUISGen1 Child 2 Switch LUISGen1 Main Module y Description The Interlock Feature will let a control activate another control in an Inverting or Non Inverting connection Continued on next page Page 162 Interlocking Controls Continued Viewing The Interlock Dependencies dialog box allows the user to see all other Children controls interlocked to the selected control This table outlines the steps for viewing the children of a selected control Right click the control Result The ToolBox dialog box displays Next to the Interlock Dependencies field click the lt gt button Result The Interlock Dependencies dialog box displays as shown in Figure 90 This dialog box lists each of the channels that are interlocked with the selected control Continued on next page Page 163 Interlocking Controls Continued Figure 90 This is an example of the Interlock Dependencies dialog box Interlock Dependencies Dialog Box Page 164 Section 7 Panels Panels Introduction The Panel control provides the ability to create text boxes for labels Using the Panel This table outlines the steps for using the Panel control as a label Control a Panel control to a window by dragging it from the Tools Click in the default text Result The cursor changes to a text editing cursor To change the text color size or alignment right click the control
36. 2 environment This exercise assumes that the LUIS Gen2 hardware and software is already installed the hardware is connected and turned on and the software is open with the configuration file saved in the previous exercise open Add a tile From the Tools tab click the Add Tile icon Result The Add Tile window displays as shown in Figure 19 In the Window Panes section select the Frequency option In the Tile Name field type Tach 4 Click the lt Add gt button Result A new tile named Tach is added to the Frequency window The Default tile shrinks to accommodate the new tile Modify a Tile On the Tools tab click the Modify Tile icon Result The Modify Tile window displays as shown in Figure 20 In the Window Panes section select the Frequency option In the Tile section select the Default option Click the lt Apply gt button Result The Default tile s name changes to Speed Click the lt Close gt button Result The Modify Tile window closes Lee In the Tile Name field type Speed Continued on next page Page 43 Working with Tiles Continued Figure 19 This is an example of the Add Tile window Add Tile Window Add Tile Add Tiles Figure 20 Modify Tile Window Window Panes Tile Name Speed Continued on next page Page 44 Working with Tiles Continued Exercise Working with Tiles The purpose of this exercise is to familiarize users with the manipulation
37. 22 Type Analog Output E Interpolation Table Table Name Remote_Throttle E Layout Location 8 38 E Scale Digits Displayed 0 Maximum 100 Minimum 0 Multiplier 1 E Server Name LUISGen2_ 1 E Text TextLine1 Remote_Trottle TextLine2 E Value Definition Default Value 0 Gauge Value 0 Hardware Setup 1 0 number associated with this control Page 152 Section 4 Indicators Indicators Introduction The Indicator control displays the status of a resistive load The status is updated every 100 milliseconds Indicators The Indicator control consists of two elements Figure 83 and this table describe these elements Displays a user defined label for the control Indicator Graphical indicator that is grey when OFF and the user defined color when ON Note The default indicator ON color is red Configuring the This table outlines the steps for configuring an Indicator control Indicator Control Add an Indicator as shown in Figure 83 to a tile by dragging it from the Tools tab Right Click the control and Select the Properties option from the menu Result The Toolbox dialog box displays as shown in Figure 84 In the Appearance section set the Indicator Color to the desired Hardware Setup option Result The Hardware I O Selection dialog box displays In the Hardware Unit field select the Resistive Load option Result The channels available in that module displays in the Channel field In the Chan
38. 4 1 24 1 VR 60 2 12 1 Hall MY07 602 246 Hal HHP 45 60 VA N A 60 2 12 1 Hall MY07 N A 60 2 4 1 Hall 60 2 4 1 Hall N A N A Description LUIS Gen1 interface to the Wavemaker hardware Continued on next page Page 102 Assigning a Gen1 Waveform Continued Assigning a This table continues to outline the steps for assigning a waveform to a Genl channel Waveform Continued The Card Settings section will differ depending on whether the user is defining an arbitrary or digital channel Channel Type Settings Arbitrary In the Waveform field select the desired waveform number from the list Note The numbers in the list correspond to the numbers listed in the Waveform Definition field on the left hand side of the window If the Input setting is set to RPM the Cycles Rev must be set correctly to complete the required calculations In the Cycles Rev field type the number of cycles per revolution for the waveform data pattern Note Two revolutions are typically used to make a complete cycle of data The Offset field allows arbitrary channels that sync with the master to shift the waveform by a number of data points If an offset is required type the amount to offset in this field Continued on next page Page 103 Assigning a Gen1 Waveform Continued Figure 56 This is an example of the WaveMaker Management window when defi
39. CH 5 Child 2 Main LUISGen1 Acbitrary_CH 6 Child 2 Switch LUISGen1 Arbitrary __CH 7 Main Module Atbitrary_CH 8 MainModuleJ1939PortAPlugin Digital_CH 1 Parent Analog Output LUISGen1 Digital_CH 2 Parent Main LUISGen1 Digital CH 3 Parent Switch LUISGen1 Digital_CH 4 Peak AdapterPlugin Digital_CH 5 Resistive Load Digital_CH 6 Sidecar Analog Output LUISGen1 Digital_CH 7 Sidecar Main LUISGen1 Digital _CH 8 Sidecar Switch LUISGen1 Digital_CH 9 SwitchModule Digital _CH 10 TEMENE Wavemaker LUISGen1 Description Select the Hardware Unit and Channel that you would like to connect this control to p Continued on next page Page 54 Working with Controls Continued Exercise The purpose of this exercise is to familiarize users with the manipulation of Working with controls in the LUIS Gen2 environment This exercise assumes that the LUIS Controls Gen2 hardware and software is already installed the hardware is connected and turned on and the software is open with the configuration file saved in the previous exercise open In the Interpolation Table section in the Table Name field select the FREQ option from the dropdown list In the Scale section in the Maximum field type 3000 Note The scale on the gauge changes In the Scale section in the Minimum field type 1 In the Scale section in the Multiplier field type 1 10 In the Server section in the Name field se
40. Deleting controls Right click on the gauge that was just pasted and select the Delete option from the menu Result The control is removed from the tile Continued on next page Page 57 Working with Controls Continued Figure 32 This is an example of the formatted gauge on the Frequency window Formatted Gauge Frequency ax Default oy Tach Continued on next page Page 58 Working with Controls Continued Exercise Working with Controls The purpose of this exercise is to familiarize users with the manipulation of controls in the LUIS Gen2 environment This exercise assumes that the LUIS Gen2 hardware and software is already installed the hardware is connected and turned on and the software is open with the configuration file saved in the previous exercise open Paste Special Right click on the ENGINE SPEED gauge in the Frequency window and select the Copy option 24 Right click on the THROTTLE gauge in the Throttle window tab and select the Paste Special option Result The Paste Special dialog box displays as shown in Figure 33 Ensure the Background Color and Component Font options are selected and all other are deselected Then click lt OK gt Result The background color and component font properties from the ENGINE SPEED gauge are applied to the THROTTLE gauge as shown in Figure 34 Save a configuration 26 Save the current configuration by clicking the Save icon on the Home toolbar
41. GarTech LUIS Gen2 User s Guide Version 2 0 Copyright GarTech Enterprises Inc 2012 Table of Contents The Load Box User Interface System Ui Fa NN I eg woes ere ec er em eee are vn TE TE EE 1 Chapter 1 Installation and Setup 3 OVerV eW 3 S ction Softwar e e reee meee eeaeee 4 Section 2 Hardware 6 IN 14 Chapter 2 Navigating the LUIS Gen2 GUI 15 OvervieW 15 Section 1 The Home Tab 17 Section 2 The Tools Tab 23 Section 3 The View and Help Ta sS
42. Hardware Setting Up a Standard LUIS Gen2 8 Updating Devices Page 7 Ordering Hardware Gartech All hardware can be ordered from GarTech Enterprises Inc Contact Information Gartech Enterprises Inc 3037 W State Road 256 Austin IN 47102 812 794 4796 www gartechenterprises com info gartechenterprises com GarTech Part This table lists the part number and descriptions for the LUIS hardware Numbers G01641 00 LUIS Gen2 Assembly 1 Main Module 1 WavemakerlIII Module 2 Analog Modules 1 Switch Module 1 Resistive Loads Module 1 Injector Loads Module GarTech The user can specify how they would like to connect the I O from the LUIS Wiring hardware to the target application and a custom harness can be designed Harnesses Page 8 Setting Up a Standard LUIS Gen2 Introduction Hardware Needed Setting Up the Hardware The setup for a standard LUIS Gen 2 box is simple requiring no special tools Any ECM can be mounted to the top of the unit by moving the screw in mounting pegs It is then connected through a simple color coded system The unit communicates with the PC through a standard USB connection To set up the LUIS Gen2 the following hardware is required e Standard LUIS e PC e Electronic Control Module e Wiring Harness e DC Power Cable e DC Power Supply e AC Power Cable e USB Cable e Loads Module Cable e Communications Cable This table outlines the physical connections requ
43. Management Window This is an example of the Table Management window Tables EGROnifice Tmptr switch Test Table FREQ Default RAR_Switch Coolant_Level Diesel_Oxidation_Catalyst Doser_Part_Filter_Out Soot_Fitter_Detta_P PPS2 PPS1 OIL_PRS_SW INTAKE_TEMP FUEL_PRS Exhaust_Pressure Crankcase_Pressure Coolant_Tempereture a Max Value mV 5000 Name EGROrifice Tmptr Input Units None Output Units Counts Resolution Scalar 64 Save Notes i Hardware Output Range Min Value mV 0 Ii Max Raw Value 1023 Create or Add Tables to be used in the configuration To Add a Table enter all data on the worksheet including breakpoints and click Add Page 72 Section 2 Editing an Interpolation Table Editing an Interpolation Table Introduction Interpolation tables can be edited if the set up for the table or the values in the table need to change Editing an This table outlines the steps for editing an interpolation table Interpolation Table Ensure that the correct configuration file is open and then from the Home tab click the Tables icon Result The Table Management window displays as shown in Figure 40 In the Tables list highlight the table to edit Result The setup information displays on the right hand side of the window and the table data is filled in on the left hand side Result The changes
44. OK gt the dialog box closes and the name displays in the Firmware File field Once the file has been selected and displays in the Firmware File field click the lt Download gt button Result The status LED on the LUIS hardware will flash during the transfer then go out briefly while the hardware resets A successful update results in the status LED turning back on Continued on next page Page 13 Updating Devices Continued Figure 4 This graphic is an example of the Devices window Devices Window Scone pI LUISGen2_ 1 Unit MainModule Part 16 Serial 2223 Firmware 0 3 WaveMaker_ 1 To Download new Firmware 1 Select a device from a Server in the left panel 2 Press Select File and locate the BIN file to download 3 Press Download Page 14 Notes Page 15 Chapter 2 Navigating the LUIS Gen2 GUI Overview Introduction The LUIS Gen2 graphical user interface provides a Windows based interface for communicating with the LUIS Gen2 box The GUI is broken into 4 main tabs All interaction takes place within windows in the workspace below these tabs Main Menu The Main menu is accessed by clicking the LUIS icon on the upper left hand portion of the window This menu provides the ability to create a new configuration file or open save an existing file It also provides a list of recently opened configuration files and an interface to print the details of a configurat
45. Result The waveform s data displays Click the lt Rename gt button Result The Rename Waveform dialog box shown in Figure 49 displays Type the new name for the waveform and click lt OK gt Result The dialog box closes and the name of the waveform is changed in both the Name field and waveform library list Note The change is automatically saved to the waveform but the configuration needs to be saved to make the changes permanent in the configuration file Continued on next page Page 87 Renaming a Gen2 Waveform Continued Figure 49 This image depicts the Rename Waveform dialog box Rename Waveform WaveMaker Management ee T a lt lela z LUIS Gen2 LUIS Gent Dialog Box Waveform Definition Channel Definition Name 60 2 Missing Teeth Name Arbitrary_CH 1 Server Save Length 25 Rename Waveform Enter the NEW name for the Waveform 60 2 Missing Teeth Digital_CH 2 Digital _CH 3 Digital_CH 4 Description Create or Add Waveforms to be used in the configuration To Add a Waveform click Add and give it a name Configure the channel and click Save lt a Continued on next page Page 88 Assigning a Gen2 Waveform Introduction Hardware Synchronizing Assigning a Gen2 Waveform After waveforms have been defined they can be assigned to channels on the WaveMaker Management window The same wav
46. TT Load Lo_11 Load_Hi_12 Com_RLY13 Load_Lo_12 NO_RLY13 Key Switch Com_RLY14 GND NO_RLY14 Load_Hi_13 Load_Lo_13 Com_RLY15 Load_Hi_14 NO_RLY15 10 hm Load Lo_14 0 o Load_Hi_15 Com_RLY16 Load_Lo_15 NO_RLY16 Relay Load_Hi_16 Load_Lo_16 GND Load_Lo_17_thm_20 f Load_Hi_17 Load_Hi_18 100 ohm Load_Hi_19 Load_Hi_20 GND Load_Lo_21_thm_24 Load_Hi_21 Load_Hi_22 1 00 ohm Load_Hi_23 Load_Hi_24 Key Switch Load_Hi_25 Load_Lo_25 Load Hi 26 Load_Lo_26 Load_Hi_27 Load_Lo_27 Load_Hi_28 Load_Lo_28 GND Load_Hi_29 Load_Lo_29 100 ohm Lead_Hi_30 Load_Lo_30 Load_Hi_31 Load_Lo_31 Load_Hi_32 GND Load Hi_ Load_Lo_33 Load_Hi_34 Load_Lo_34 Load_Hi_35 Load_Lo_35 Load_Hi_36 Load_Lo_36 Key Switch VBATT GND Resistive Loads Module
47. and select the Properties option from the menu Result The ToolBox dialog box displays as shown in Figure 91 Use the options in the Appearance section to make changes to the text Continued on next page EE Type the desired label using CTRL ENTER to move to a new line Page 165 Panels Continued Figure 91 This is an example of the ToolBox dialog box for the Panel control Panel Properties Page 166 Notes Page 167 Chapter 8 Module Descriptions Overview Overview This chapter provides additional technical information about the LUIS Gen2 module hardware Introduction A standard LUIS Gen2 system configuration contains Main Module Wavemaker Module 2 Analog Modules Switch Module Resistive Loads Module Injector and Application Specific Loads Module In addition the user can request additional modules of each type depending on what is needed for their application New modules are constantly being developed along with the ability to create custom modules for specific applications Check with the GarTech engineering staff for additional information In This This table outlines the topic covered in this section Chapter Main Module 168 Wavemaker Module 171 Analog Module 174 Switch Module 176 Resistive Loads Module 178 Page 168 Section 1 Main Module Main Module Front Panel This table outlines the controls found on the front panel of the Main LUIS Description Gen2 module Po
48. and side of the workspace The Frequency window is docked to the bottom of the workspace and the rest of the windows are tabbed across the top of the workspace 2 ee F mm i pa jw ee sE T l isis FF 8 vat i oe a w ee eee N al Inactive Vinee ie oe Window Panes Ties T CDSE GaSe e Switch Tabbed U 1 d E Throttle Switches Pressures Temps Misc Loads npi nne gt ni Wind Wind TROTE ee Clsed sop Gontol Penal INCOWSs in OW E Percent Load Gain Adjust Closed Loop oo 0 ON IDLE OFF IDLE ae Te Lio OFF GarTech engine model control loop gain Typical stable Docked Tax Wi d Default Tach a Indow ENGINE SPEED TURBO SPEED VEHIGLE SPEED Terese RPM Men Figure 8 This image shows the docking tools Docking Tools Home Toos View Help Eire RTT a MEE SE are ar A T s Tai rsa bacao giois T 8 tarea fom ca yma ae eu vaar wae me me Window Panes Ties ClosedLoopContral DigitalOisplay Gauge Indicator Panel Snitch Engine Speed Posion ox Analog 42 48 Analog 33 43 Analog 25 32 Analog 17 24 Analog 8 16 Analog 0 7 N Frequencys Engine Freqs a Default VR_00 VROT j J J1 16 51 17 J2 60 J2 59 oe HALL_00
49. are ek configuration file Continued on next page page Editing an Interpolation Table Continued Figure 40 Table Management Window This is an example of the Table Management window Page 73 o S amp Tables EGROnifice Tmptr switch Test Table FREQ Default RAR_Switch Coolant_Level Diesel_Oxidation_Catalyst Doser_Part_Filter_Out Soot_Fitter_Detta_P PPS2 PPS1 OIL_PRS_SW INTAKE_TEMP FUEL_PRS Exhaust_Pressure Crankcase_Pressure Coolant_Tempereture Create or Add Tables to be used in the configuration To Add a Table enter all data on the worksheet including breakpoints and click Add Notes Name Input Units Output Units Resolution Scalar EGROnrifice Tmptr None Counts 64 Hardware Output Range Min Value mV 0 Max Value mV Max Raw Value 5000 1023 Add New Save i Page 74 Section 3 Importing an Interpolation Table Importing an Interpolation Table Introduction An existing interpolation table can be imported into a configuration file LUIS Gen2 can import both Gen and Gen files Importing and This table outlines the steps for importing an interpolation table Interpolation Table 1 Ensure that the correct configuration file is open then from the Home tab click the Tables icon Result The Table Management window displays as shown in Figure 41 2 Click the lt Im
50. auge Font Microsoft Sans Serif 6pt Text Color HB ControlText Biziz Arial Narrow Spt EJ E Component Options Enable True Gauge Type Round Interlock Dependencies Collection Text Font Text Font Page 55 This image shows the gauge after the modifications have been made Continued on next page Page 56 Working with Controls Continued Exercise Working with Controls The purpose of this exercise is to familiarize users with the manipulation of controls in the LUIS Gen2 environment This exercise assumes that the LUIS Gen2 hardware and software is already installed the hardware is connected and turned on and the software is open with the configuration file saved in the previous exercise open Resizing controls 17 Right click on the gauge and select the Allow Resizing option from the menu Result The gauge can now be resized by grabbing the outline of the gauge and pulling it in and out When the gauge has been resized right click on it and select the Lock Size option from the menu Result The gauge s size is now locked Moving controls 19 Grab the gauge control by the title bar and drag it to a new position on the tile Copying and pasting controls ol Right click on the gauge and select the Copy option from the menu Right click anywhere in the current tile or another tile and select the Paste option Result A copy of the gauge is pasted on the tile
51. ber along with its Priority Bits and Source Destination address Note Decimal values are valid As the ID is typed the Hex name displays The Rate and Length fields are not necessary when setting up J1939 messages to receive 7 Ensure that the Receive via Peak Adapter option is selected When the message has been defined click the lt Save gt button Result The message definition is saved but the configuration needs to be saved to make the changes permanent in the configuration file Continued on next page Page 117 Setting Up J1939 Messages to Receive to Receive Continued Figure 62 This is an example of the J1939 Datalink Sensor Simulation Management J1939 Datalink window Sensor Simulation Management Window Message Parameter Definition Name EEC1 Add New Name Engine Speed Desc Electronic Engine Controller 1 Start Bit ay Delete Close ID 217056256 Hex OCFO0400 Saai Ses Rate 20 cccr ms Tensi Resolution 0 125 i oe 7 Length bytes Receive via Peak Adapter Offset 0 2 9 3 7 Engine Retarder Torque Modes 6 41 Driver s Demand Engine Torque d 49 Source Address of Controlling Device 8 57 i Description Uses a Peak Adapter to receive messages Figure 63 This image is an example of the New Message Creation dialog box New Message Creation Dialog Neliiiai sage Creation sg Box Enter the name ofthe Message Page 118 Importing J1939 Messa
52. box Dialog Box Taa x Properties o z i E Appearance Allow Resize False Background Color C GradientActiveCaption Background Image L fone BorderStyle None Component Size 200 240 Gauge Font Microsoft Sans Serif 9 75pt styl Text Color HB Control Text Text Font Microsoft Sans Serif 12pt E Component Options Freeze Value True Gauge Type Round Interlock Setup Hardware E Hardware Setup MainModuleJ1939PortAPlugin Channel EEC1 gt Engi tarder Torque Modes Type MainModuleJ1 tAPlugin E Interpolation Table TableName E Scale Maximum 100 Minimum 0 Multiplier 1 Scale Resolution 1 Server Name LUISGen2_ 1 Text TextLine1 Default Name TextLine2 Units E Value Definition Default Value 0 Gauge Value 0 Hardware Setup 1 0 number associated with this control Page 128 Notes Page 129 Chapter 6 Servers Overview Introduction The LUIS Gen2 has the ability to run multiple servers which connect to a separate USB interface Each server can have multiple clients so that when data is sent to hardware devices the data is reflected to any client connected This diagram illustrates the hardware software architecture PC Servers and Applications LUISGen2_ 1 Server Clients can connect to multiple servers Pipeline USB Interface ja gt pirate yY aie ae oe a Client DLL lt Client WaveMaker_ 1 Server Internal Client Server Pipeline USB Interface j lt WaveMaker III connec
53. ce The Startup defaults allow the user to set whether or not a configuration is loaded as well as if the Startup Page should be displayed at startup E Options Startup i Configuration Interface Options Load Configuration Yes Load default configuration on Startup No Do nothing upon Startup Current Default Configuration None Display Startup Page Yes Statup Page is loaded No No Startup Page The Configuration defaults allow the user to set what should happen after a configuration file is loaded as well as set a default configuration file Continued on next page Page 22 The Home Tab Continued Defaults The Interface defaults allow the user to set grid options for laying out Continued controls on windows The F9 key toggles the snap option on and off E Options Startup Configuration Interface Options Snap and Grid V Snap On F9 Grid X spacing 5 Grid Y spacing 5 V Equal X and Y spacing Page 23 Section 2 The Tools Tab The Tools Tab Introduction Definitions Configuration files are built in user defined windows The Tools tab provides the toolbar for adding windows in the workspace as well as tiles within windows It also provides the interface for adding the desired controls to build the configuration To easily work within the LUIS Gen2 GUI it is necessary to understand some terminology Window A container in a
54. configuration to which tiles can be added Tile A space within a window to which controls can be added and manipulated as a group Every window has at least one tile Digital Display A control that displays Engine Units Counts and Millivolts digitally Gauge A control that displays values in a round or cor ery ent Indicator A control that displays the status of resistive loads Text Panel A control that allows the user to add text to a configuration Switch A display that allows the user to add a momentary or toggle switch to the configuration Closed Loop Control A control that allows the user to create a simple closed loop engine speed model This control is only available when using an ECM that outputs a public broadcast on the J1939 datalink The process of fixing the position of a window within the workspace Pin The process of fixing the position of a window within the workspace in a way that it window shades to the last docked position when not active Continued on next page Page 24 The Tools Tab Continued In This Section This table outlines the topics covered in this section Working with Windows Working with Tiles Working with Controls Page 25 Notes Page 26 Working with Windows Introduction Windows are the containers of tiles and every window has at least one tile Windows make up the base of a configuration file and display in the workspace When a configuration file is saved the
55. cribe the controls found on the front panel of the Descriptions Wavemaker Module Continued Output Test Provides a method for measuring voltage for each of the Points outputs ARBITRARY Indicates if a card is installed for each of the arbitrary LEDs channels DIGITAL LEDs Indicates if a card is installed for each of the digital channels Continued on next page Page 173 Wavemaker Module Continued Wavemaker This diagram illustrates the pinout for the Wavemaker module Module Pinout Dig 1 pS Mating Connector Dig_1 4 DRC26 50S 02 BLUE oe ae Dig 3 fP H Dig_3 Dig_4 f Dig_4 Dig_5 f gt Dig_5 Dig_ 6 f Dig_6 Dig 7 f Dig _7 7 Dig 8 fP Dig_8 Dig 9 f E Dig_9 Dig_10 f gt Dig_10 Arb l P Arb 1 Arb_2 f gt Arb 2 Arb 3 fP Arb 3 Arb 4 f Arb 4 Arb 5 fP Arb 5 Arb 6 f Arb 6 Arb 7 amp Arb_7 Arb 8 f Arb 8 GND 5V 24 31939_H feat J1939_L kas sync_IN sync_IN lt sync_OUT f gt Sync_OUT f Wavemaker III Module Page 174 Section 3 Analog Module Description Analog Module Description Introduction The analog outputs are arranged in groups of 4 and each group requires a reference voltage input The reference voltage range is 0 15v All outputs are 16 bit and are scaled from 0 Vref with a 20mA current limit per output Up to 4 Analog Modules are supported by the system Panel The front panel of the Analog Module provides indicate
56. e used to match the table output to the hardware limitations Example If the table output is set up for 10 bit 1023 counts and the hardware output is 16 bit 65535 counts then the conversion formula is Hardware Output Table Output or 65535 1023 64 The resolution scalar is 64 Continued on next page Page 67 Creating an Interpolation Table Continued Figure 36 This is an example of the Table Management window Table Management Window o S amp Tables EGROnfice Tmptr Name EGROrifice Tmptr switch a e Test Table F Input Units None Delete FREQ __ Defaut Output Units Counts Save RAR_Switch Coolant_Level Resolution Scalar 64 EGROnficeTmptr Diesel_Oxidation_Catalyst Notes S Doser_Part_Filter_Out z Import Close Oil_Pressure Hardware Output Range Soot_Filter_Delta_P Min Value mV 0 PPS2 PPS1 Max Value mV 5000 OIL_PRS_SW INTAKE_TEMP Max Raw Value 1023 FUEL_PRS Exhaust_Pressure Crankcase_Pressure Coolant_Tempereture Me Description Create or Add Tables to be used in the configuration To Add a Table enter all data on the worksheet including breakpoints and click Add Figure 37 New Table Creation Dialog Box Enter the name ofthe Table Continued on next page Page 68 Creating an Interpolation Table Continued Creating an This table continues to outline the steps for creating an interpolation tab
57. e Channel field select the appropriate channel Important Note The Closed Loop Control must be set to the Engine Speed Channel in the WaveMaker Click lt OK gt to closed the dialog box Result The dialog box closes and the Channel and Type under Hardware Setup are filled in with the selections In the Interpolation Table section use the down arrow next to the Table Name option to select the appropriate interpolation table Important Note The Interpolation Table must match the interpolation table used for the Engine Speed channel In the Server section use the down arrow next to the Name option to select the appropriate server Note Gen1 uses the Peak Adapter and Gen2 uses the Wavemaker server Continued on next page Closed Loop Control Continued Page 141 Figure 75 This is an example of a Closed Loop Panel control Closed Loop Panel Control Percent Load Gain Adjust Closed Loop engine speed control panel Figure 76 This is an example of the Toolbox dialog box for a Closed Loop Control Closed Loop Control ToolBox x Properties Properties o Allow Move Allow Resize Background Color Background Image BackgroundimageLayout Component Size E Gauge Font Text Color Text Font E Hardware ECM Source ID E Hardware Setup E Interpolation Table TableName B Layout E Location E Server Name E Value Definition Gain Value Percent Load Value True False
58. e Dock Location section select the Bottom option In the Window Name field type Frequency Leave the Tile Layout options set to the defaults of 1 Click lt Add gt to add the window and lt Close gt to close the Add Window Pane window Result A new window called Frequency displays at the bottom of the workspace as shown in Figure 11 Resize the Frequency window to display the controls in the Throttle tab Continued on next page 9 Leave the Unpinned option un selected Page 35 Working with Windows Continued Figure 10 This image shows an example of the Add Window Pane window Add Window Pane Window Add Window Pane Tile Layout oe Min Tile Columns 1 Min Tile Rows 1 Figure 11 This image shows the workspace after adding the Frequency window to the New Frequency sample configuration Window J m i m v i lt u ve retro Aram e ea me a E e Window Panes Tiles ClosedLoopControl DigitalDisplay Gauge Indicator Panel Switch Kaas Window ax Throttle Switches Pressures Temps Misc Loads x Keyswitch VBATT Stop Warning Malf 9 JE l Continued on next page Page 36 Working with Windows Continued Exercise The pu
59. e list below Defaults are loaded into the other fields In the ZD field type the message ID The message ID is the Parameter Group Number along with its Priority Bits and Source Destination address Note Decimal values are valid As the ID is typed the Hex name displays In the Rate field select the appropriate rate in milliseconds from the dropdown list Note This is the rate the message is transmitting on the CAN bus 7 In the Length field select the number of bytes that make up the data load for the message from the dropdown list Continued on next page Page 113 Setting Up J1939 Messages to Transmit to Transmit Continued Figure 59 This is an example of the J1939 Datalink Sensor Simulation Management J1939 Datalink window Sensor Simulation Management Window J1939 Datalink Sensor Simulation Management Message Definition Name EEC1 Add New Desc Electronic Engine Controller 1 Delete Message Parameter Definition Name Engine Speed Start Bit ID 217056256 Hex OCF00400 a Length bits Rate me A iad Resolution 0 125 h ies vi mot Offset 0 Length bytes Receive via Peak Adapter engine Sp TSC1 Engine Retarder Torque Modes Driver s Demand Engine Torque Source Address of Controlling Device Description Uses the LUIS Gen2 hardware to broadcast the message Continued on next page Page 114 Setting Up J1939 Messag
60. ed to the Frequency window Save a configuration 23 Save the current configuration by clicking the Save icon on the Home toolbar Result The Configuration File is saved Continued on next page Page 47 Working with Tiles Continued Figure 24 This is an example of a window with two tiles named Speed and Tach Window with Two Tiles Frequency vax Speed a Tach Page 48 Working with Controls Introduction Adding Controls Moving Controls Copying and Pasting Controls Paste Special Controls are the gauges switches digital displays and text that display the values from the hardware This section gives an overview of how to work with the control on the Tools Tab For more information about each specific control see Chapter 7 Controls beginning on page 136 Controls are added to tiles within windows they cannot sit directly on a window To add a control grab the desired control icon from the Tools tab and drag it to the desired tile A control can be moved within the same tile by grabbing its title bar and dragging it to a new position The grid spacing as well as whether or not controls should be snapped to the grid are set on the Interface Options tab on the Options window opened through the Defaults icon on the Home tab Any control can be copied by right clicking on the control and selecting the Copy option from the menu shown in Figure 25 To paste a control right click where the new control s
61. eform can be assigned to multiple channels within a configuration Channels can be set to be synchronized When using this option one channel must be set to be the master Any channel that should sync with that channel will be a slave to it Channels can also be synchronized with an external drive When this is the case the master channel must be set as a master and also as an external sync drive This allows the channel to output its drive signal externally and other WaveMaker units can use it as a master This table outlines the steps for assigning a waveform to a channel With the appropriate configuration file open from the Home tab click the Waveforms Channels icon Result The WaveMaker Management window displays as shown in Figure 50 Click the LUIS Gen2 tab at the top of the window Result The interface for defining Gen2 waveforms and assigning them to channels displays In the Server field select the correct server for the channel to assign Result The channels available on the selected server display in the channels list and the first channel s information is filled in to the fields 4 Select the desired channel from the channel list Result The channel s information populates the fields 5 In the Jnput field select the correct input 3 Continued on next page Page 89 Assigning a Gen2 Waveform Continued Figure 50 T
62. es to Transmit to Transmit Continued Setting Up This table continues to outline the steps for setting up J1939 messages to J1939 Messages transmit through the CAN servers to Transmit Continued 8 Ensure that the Transmit option is selected Click the lt Baud gt button 4 Result The Configure the Baud Rate for CAN Bus dialog box displays as shown in Figure 61 From the CAN Bus Plugin field select the appropriate plugin From the Baud Rate dropdown list select the desired baud rate for the data transmission When the rate has been set up click the lt Save gt button Result The changes are saved and the dialog box closes 13 When the message has been defined click the lt Save gt button Result The message definition is saved but the configuration needs to be saved to make the changes permanent in the configuration file Continued on next page Page 115 Setting Up J1939 Messages to Transmit to Transmit Continued Figure 60 This is an example of the J1939 Datalink Sensor Simulation Management J1939 Datalink window Sensor Simulation Management Window J1939 Datalink Sensor Simulation Management Message Definition Message Parameter Definition Name EEC1 Name Engine Speed Desc Electronic Engine Controller 1 Start Bit 5 x ID 217056256 Hex OCF00400 a Length i6 bis Resolution 0 125 Rate 20 ms Transmit Baud Length bytes Receive
63. evice 8 57 Description The Length if the number of bytes that make up the data load for the message Page 124 Section 3 Assigning J1939 Parameters to Gauges Assigning J1939 Parameters to Gauges Introduction Once J1939 messages and parameters have been defined the parameters can be assigned to gauges within the LUIS Gen2 workspace Assigning a This table outlines the steps for assigning a J1939 parameter to a gauge J1939 Parameter to a Gauge Add a gauge to the appropriate tile within the configuration Right Click the control and select the Properties option from the Result The Toolbox dialog box displays as shown in Figure 68 In the Component Options section use Enable option to determine if the value of the control should be enabled True or not disabled False In the Hardware section click the lt gt button next to the Hardware Setup option Result The Hardware I O Selection dialog box displays as shown in Figure 69 In the Hardware Unit field select either the MainModuleJ1939PortAPlugin or the PeakAdapterPlugin option Result The channels available in that module display in the Channel field In the Channel field select the appropriate channel Click lt OK gt to close the dialog box Result The dialog box closes and the Channel and Type under Hardware Setup are filled in with the selection Continued on next page Assigning J1939 Parameters to Gauges Continued
64. ext page Page 2 Introduction Continued LUIS Features The LUIS Gen provides the following features e Open and closed loop engine speed simulation e WaveMaker waveform generator 8 channel arbitrary and 10 channel digital frequency outputs e LUIS Gen2 PC application allowing user complete control over I O setup e Creation of configuration files to set up I O for specific tests e Upto 128 16 bit DAC outputs e Up to 80 switch outputs e 1 30A relay output e 4 15A VBATT switched relay outputs e Up to 72 resistive load inputs e J1939 message simulation e Upgradable firmware Continued on next page Page 3 Chapter 1 Installation and Setup Overview LUIS The LUIS Gen2 has a main module that is connected to the PC via USB Hardware Additional modules can be added including Wavemaker Switch Analog and Resistive Loads to customize the system to fit the user s specific needs LUIS Gen2 The LUIS Gen2 comes with a graphical user interface for controlling all Software outputs as well as for setting up closed loop controls and J1939 simulation In This Section This table outlines the topics covered in this section Hardware _ See Page Software eee Page 4 Software Introduction LUIS GUI Basic Environment Section 1 Software The LUIS Gen2 has a graphical user interface that runs in the Windows environment The LUIS GUI is made up of a tab system with a toolbar specific to each tab
65. g a waveform Gen2 Waveform With the appropriate configuration file open from the Home tab click the Waveforms Channels icon Result The WaveMaker Management window displays as shown in Figure 44 Click the LUIS Gen2 tab at the top of the window Result The interface for defining Gen2 waveforms and assigning them to channels displays On the left hand side of the window in the Waveform Definition section click the lt Add New gt button Result The New Waveform Creation dialog box displays as shown in Figure 45 In the field type the name of the waveform and click lt OK gt Result The name displays in the Name field as well as being listed in the waveform library field In the Card Output mv table create the waveform Create manually Type in the values for the waveform using the TAB key to navigate the table Continued on next page Page 81 Defining a Gen2 Waveform Continued Figure 44 This is an example of the WaveMaker Management window open to the WaveMaker LUIS Gen2 tab Management Window Q WaveMaker Managemen T y i e aao ASE OL ae Se Nee sista Length 7200 rout Fea Hardware Synchronizing Master F Et Sync Drive Slave Master Channel 60 2 missing teeth low 60 2 msg teeth hi 500 Description Create or Add Wavefoms to be used in the configuration To Add a Waveform click Add and give t a name Configure the channel and click Save i
66. ges Introduction J1939 Messages and their parameters defined in other configuration files can be imported in to the current configuration Importing This table outlines the steps for importing J1939 messages and parameters J1939 Definitions With the appropriate configuration file open from the Home tab click the SAE J1939 Sensors icon Result The J1939 Datalink Sensor Simulation Management window displays as shown in Figure 64 2 Click the lt Import gt button Result The Import Message dialog box displays 3 Browse for and find the configuration from which the J1939 Messages should be imported then click lt Open gt Result The Select Items dialog box displays as shown in Figure 65 with the message definitions displayed Select each of the messages to import and click lt Import gt Note The messages and their parameters are imported If attempting to import a message with a duplicate name LUIS will prompt whether or not to continue Once the messages have been imported click the lt Save gt button on the far right hand side of the window to save the changes Note Save the configuration to make the changes permanent to the configuration file Continued on next page Page 119 Importing J1939 MessagesImporting J1939 Messages Continued Figure 64 This is an example of the J1939 Datalink Sensor Simulation Management J1939 Datalink window Sensor Si
67. h 39 Switch 40 SW 36 40 Common Un Tie Commons 5 0V Jump 41 50 to separate commons rs J Page 178 Section 5 Resistive Loads Module Description Resistive Loads Module Description Introduction The Resistive Loads Module contains a total of twelve 1k ohm loads and twenty four 100 ohm loads Four of the 100 ohm loads are used to drive 30A automotive relays and the relay contracts are available at the back panel of the connector Panel The front panel of the Resistive Loads Module provides indicator LEDS and Descriptions the rear panel provides the relay contacts RESISTIVE LOADS MODULE This table describes the controls found on the front panel POWER LED Indicates that the internal power supply is powered on and functioning normally STATUS LED Indicates that the module has completed its power up sequence and is ready to accept commands from the PC RELAY STAUS Indicates whether each load is being driven LEDs Continued on next page Page 179 Resistive Loads Module Description Continued Resistive Loads This diagram illustrates the pinouts for the Resistive Loads Module Pinout Key Switch Load_Hi_1_thm_4 Load_Lo_1 1 k Load_Lo_2 Load_Lo_3 Mating Connector Load_Lo 4 ELCO 90 wiscrew exposed pins Key Switch Load_Hi_5_thm_8 Load_Lo_5 1 k Load_Lo_6 Load_Lo_ Load_Lo_8 Key Switch Key Switch Load_Hi_9 Load_Lo_9 VBATT Load_Hi_10 VBATT 1 k Load_Lo_10 VBATT Load_Hi_11 VBA
68. his is an example of the WaveMaker Management window when WaveMaker assigning a LUIS Gen2 waveform Management LUIS Gen2 i 7 a i e Window Card Output inv Waveform Definition Channel Definition m Name Add New Name Arbirary_CH T Server WaveMaker 1 z sve i Length 0 Deme rout RPM x Hardware Synchronizing Arbitrary Card Settings l Maser Et Se Dive Wavefom Cycles Rev 2 h Save 7 ee l 60 2 missing teeth low 1 Avbitrary_CH 2 i 60 2 missing teeth hi Atbitrary_CH 3 f 24 1 bhp hall Arbitrary _CH 4 test waveform Arbitrary _CH 5 Arbitrary _CH 6 Arbitrary _CH 7 Arbitrary _CH 8 i Digital_CH 1 Digital_CH 2 Digital_CH 3 Digtal CH 4 Digital_CH 5 Digital_CH 6 z l Description Jl Create or Add Waveforms to be used in the configuration To Add a Waveform click Add and give t a name Configure the channel and click Save M Continued on next page Page 90 Assigning a Gen2 Waveform Continued Assigning a This table continues to outline the steps for assigning a waveform to a Gen2 channel Waveform Continued In the Hardware Synchronizing section select if this channel should be a Master Slave or Master and External Sync Drive Note Unless this channel is to be a slave to another the Master option should be selected If the channel is a Slave select its Master Channel from the dropdown list Note If this channel is to sync to an external sync drive select the Ext Sync
69. hould be pasted and select the Paste option from the menu Controls can be pasted between tiles and windows within an instance of the LUIS Gen2 GUI Controls can also be pasted between multiple instances of the LUIS Gen2 GUI open on the same PC The properties of any control can be pasted onto another control by right clicking on the original control and selecting the Copy option from the menu and then right clicking on the recipient control and selecting the Paste Special option The Paste Special dialog box shown in Figure 26 displays where the user can select what properties should be pasted onto the control These options include both appearance and operation Continued on next page Working with Controls Continued Figure 25 Working with Controls Figure 26 Paste Special Default Page 49 This image depicts the menu that displays when right clicking on a control VR_00 J1 16 J1 17 VR_01 J2 60 J2 59 Paste Delete Properties Allow Resizing 000080 This image depicts the Paste Special dialog box Appearance E Allow Move E Allow Resize Background Color T Control Specific MV Size Operation E Interlock E Hardware Interpolation Table V Component Font V Component Text Color Text Font Text Color V Border Style E Scale E Server E Default Value Continued on next page Page 50 Working with Controls
70. ile dialog box Example Configuration E File Dialog Box M f2 e A S Bu kW 10 LUIS Gen Configuration File Sample_2 12c Server Name Control Name I O Name Min Max Resolution Table Name 0 1 1 VBATT Main Module VBATT 0 switch Relay 1 Keyswitch 1 J2 5 Main switch Module Switched VBATT Relay 1 Keyswitch 2 J2 29 Main Module Switched VBATT Relay 2 SW_00 J2 11 Relay Relay 1 switch SW_01 J2 12 Relay Relay 2 switch SW_02 J2 86 Relay Relay 3 switch SW_03 J2 87 Relay Relay 4 switch SW_04 J2 88 Relay Relay 5 switch SW_05 J2 89 Relay Relay 6 switch SW_06 32 90 Relay Relay 7 switch SW_07 J2 91 Relay Relay 8 switch SW_08 J2 92 Relay Relay 9 switch SW_09 J2 93 Relay Relay 10 switch SW_10 32 94 Relay Relay 11 switch SW_11 J1 52 Relay Relay 22 switch SW_12 J2 66 Relay Relay 12 switch SW_13 J2 67 Relay Relay 13 switch SW_14 J2 68 Relay Relay 14 switch SW_15 J2 69 Relay Relay 15 switch SW_16 J2 70 Relay Relay 16 switch SW_17 J2 47 Relay Relay 17 switch SW_18 J2 19 Relay Relay 18 switch SW_19 J2 20 Relay Relay 19 switch SW_20 J2 44 Relay Relay 20 switch SW_21 J2 43 Relay Relay 21 switch AD_00 Analog Output Analog Test Table Output 5 E Page 64 Notes Page 65 Chapter 3 Interpolation Tables Overview Introduction Some of the components controlled by the LUIS Gen2 require an interpolation table to match the engineering unit that is on the gauge to a counts value For example 32 PSI is 500 counts which
71. ile dialog box where a configuration file can be saved Continued on next page Page 20 The Home Tab Continued Manipulating This table continues to outline the capabilities available from the Configuration Configuration section of the Home tab toolbar Files Clears the configuration Send Configuration Sends the currently open configuration to the LUIS Gen2 hardware Save Defaults Saves the current values of all controls as the new defaults Attaching Files The Attachments icon on the Home tab toolbar opens the Attachments window where the user can attach a document such as a wiring diagram to the configuration Once a file has been attached the lt Detach and Save gt button can be used to save the file to the hard drive and the lt Open gt button can be used to attempt to open the file using the default program for the file type Attachments a _ ll Files File Name Comment Detach and Save Open Remove Update Comment Close Any file can be attached to this configuration The attachment can be detached and saved by pressing the Save button By pressing the Open button the attachment will be opened in the default application Continued on next page Page 21 The Home Tab Continued Defaults The Defaults icon on the Home tab toolbar opens the Options window where defaults can be set for startup configuration and interfa
72. ine Speed EEC1 lt Engine Retarder Torque Modes EEC1 lt Driver s Demand Engine Torque EEC1 lt Source Address of Controlling Device Description Select the Hardware Unit and Channel that you would like to connect this control to a Continued on next page Page 126 Assigning J1939 Parameters to Gauges Continued Assigning a This table continues to outline the steps for assigning a J1939 parameter to a J1939 gauge Parameter to a Gauge Continued In the Interpolation Table section use the down arrow next to the Table Name option to select the appropriate interpolation table In the Scale section the scale for the control can be set including the Minimum and Maximum values as well as the Multiplier and Scale Resolution In the Server section use the down arrow next to the Name option to select the appropriate server In the Text section the TextLinel and TextLine2 options are used to define the label that displays at the top of the control The Value Definition section can be used to set the Default Value for the control The rest of the options on the Properties dialog box are used to control the look of the control These can be set as desired by the user Note More information about Interlock Setup can be found in the following chapter Continued on next page Assigning J1939 Parameters to Gauges Continued Figure 70 This is an example of the Toolbox dialog box Tool
73. ion file Quick Access The Quick Access Toolbar displays by default above the tabs This feature Toolbar provides quick shortcuts for saving a configuration as well as adding or modifying a window This toolbar can be moved to display below the main toolbar by clicking the down arrow and selecting Show Below the Ribbon Tabs The tabs within the GUI are described below Provides the interface for working with configurations interacting with hardware managing tables and plug ins working with the WaveMaker application and setting defaults Tools Provides the interface for creating windows and building configurations View Provides an interface for navigating between open windows Help oo Provides on line help Continued on next page Page 16 Updating Devices Continued Hiding the At any time the tabs can be hidden to provide more space in the workspace Tabs Right click on any empty spot on a tab and select the Minimize the Ribbon option The tab ribbon is hidden and the tab names display across a narrow bar Clicking on these names opens the tab and clicking again closes it To maximize the tabs right click on the narrow bar where the tab names appear and deselect the Minimize the Ribbon option The ribbon can also be minimized maximized from the drop down arrow on the Quick Access Toolbar In This This table outlines the topics covered in this chapter Chapter The View and Help Tabs 60 Printing a Configuration File Sum
74. ired to set up the hardware to run a standard LUIS Gen2 Unscrew and configure the ECM pegs on top of the box shown in Figure 1 to accommodate the ECM and mount the ECM on the Using the appropriate Wiring Harness connect the Control Module to the LUIS Gen2 using the color coded ports on the back of the LUIS Gen2 box Connect the 8 pin Unswitched Power Out connector port on the back of the LUIS Main Module Using the DC Power Cable connect the LUIS Gen2 to the DC Power Supply using the Vbatt In port on the back of the LUIS Gen2 shown in Figure 2 Note The DC Power Cable has a locking tab that must be depressed when disconnecting Continued on next page Page 9 Setting Up a Standard LUIS Gen2 Continued Figure 1 This image illustrates the mounting pegs on the top of the LUIS Gen2 Mounting the ECM LOAD MODULE RESISTIVE WAVEMAKER ANALOG MODULE ANALOG MODULE SWITCH MODULE LOADS MODULE Figure 2 This picture illustrates the DC Power connection between the LUIS and the DC Power DC power supply Connections Continued on next page Page 10 Setting Up a Standard LUIS Gen2 Continued Setting Up the Hardware Continued This table continues to outline the physical connections required to setup the hardware to run a standard LUIS Gen2 Using the Loads Module Cable connect the Main Module to the Injector Specific Loads Module Note The cable is labeled Main Module End and Load Module End because it can be
75. k the Tables icon Result The Table Management window displays as shown in Figure 43 In the Tables list highlight the table to delete Click the lt Delete gt button Result A dialog box displays to confirm the action Click yes to delete the table The table is removed from the Tables list and the configuration file 4 Close the Table Management window and save the configuration file Continued on next page Page 77 Deleting an Interpolation Table Continued Figure 43 This is an example of the Table Management window Table Management Window Tables EGROrifice Tmptr Name EGROrfice Tmptr switch a e Test Table F Input Units None Delete FREQ e Cou Default Output Units s RAR_Switch lus SENE as Coolant_Level Resolution Scalar 64 Diesel_Oxidation_Catalyst Notes Doser_Part_Filter_Out i Oil_Pressure Hardware Output Range Wir a Soot_Fiter_Detta_P Min Value mV 0 Ii PPS2 PPS1 Max Value mV 5000 OIL_PRS_SW INTAKE_TEMP Max Raw Value 1023 FUEL_PRS Exhaust_Pressure Crankcase_Pressure Coolant_Tempereture Y Description Create or Add Tables to be used in the configuration To Add a Table enter all data on the worksheet including breakpoints and click Add Page 78 Overview Introduction In This Chapter Chapter 4 Waveforms The Wavemaker module has built in support for specific waveform data LUIS
76. le Interpolation Table Continued In the Notes section type any notes to describe the table The Min Value mV field is the minimum hardware value used to calculate output voltages when digital to analog converters are used The value is typically 0 mV Note This is only used for display purposes and does not affect hardware output The Max Value mV field is the maximum hardware value used to calculate output voltages when digital to analog converters are used The value is typically 5000 mV Note This is only used for display purposes and does not affect hardware output The Max Raw Value field is the value used to calculate output voltages when digital to analog converters are used A typical table would be set up for 10 bit output and a max raw value of 1023 would be needed Note This is only used for display purposes and does not affect hardware output Continued on next page page Page 69 Creating an Interpolation Table Continued Figure 38 This is an example of the Table Management window Table Management Window Tables Bickel Name EGROnfice Tmptr switch a e Test Table F Input Units None Delete FREQ m pm SSS Default Output Units s P RAR_Switch J Coolant_Level Resolution Scalar 64 Diesel_Oxidation_Catalyst Notes Doser_Part_Filter_Out i Oil_Pressure Hardware Output Range Wir Soot_Fiter_Detta_P Min Value mV 0 Ii PPS2 PPS1 Max Value mV 500
77. lect WaveMaker_ 1 from the dropdown list In the Text section in the TextLine field type Result The text on the gauge changes In the Text section in the TextLine2 field type RPM Result The text on the gauge changes Formatting a control s appearance On the Toolbox dialog box in the Appearance section click the drop down arrow next to the Background Color field From the drop down pick the Web tab and select the Dark Red option Result The background color of the gauge changes 14 In the Gauge Font section click the lt gt button Result The Font dialog box displays In the Size field type 6 and click lt OK gt Result The Font dialog box closes and the size of the gauge font changes Close the Toolbox dialog box Continued on next page Working with Controls Continued Figure 30 The Toolbox Dialog Box Figure 31 Modified Gauge Toot This is an example of the Toolbox dialog box B InterlockSetup E Hardware Hardware Setup Interpolation Table TableName a Layout E Location E Scale Digits Displayed Maximum Minimum Multiplier E Server Name E Text __Textline 1 WaveMaker Arbitrary_CH 1 Properties ARE E Appearance j Allow Move True Allow Resize False Background Color E DarkRed Background Image LI fone BackgroundimageLayout Tile BorderStyle None Component Size 210 240 a G
78. lue mV 5000 OIL_PRS_SW INTAKE_TEMP Max Raw Value 1023 FUEL_PRS Exhaust_Pressure Crankcase_Pressure Coolant_Tempereture iY Description Create or Add Tables to be used in the configuration To Add a Table enter all data on the worksheet including breakpoints and click Add Select Items This is an example of the Select Items window _ switch Test Table FREQ Default RAR_Switch Coolant_Level C EGROnifice Tmptr Diesel_Oxidation_Catalyst Doser_Part_Filter_Out OEM_Pressure_Sensor DPF_DettaP Compress_Inlet_Temp Oil_Pressure lt loool WIF Soot_Fil PPS2 PPS1 OIL_PR INTAKE FUEL_F Exhaust Crankcz Coolant BOOST Ambient E DPF_O p Dopopgorooma Description Select items from the list and click Import to transfer the selected items into the configuration Page 76 Section 4 Deleting an Interpolation Table Deleting an Interpolation Table Introduction If an interpolation table is no longer needed in a configuration it can be deleted An interpolation table can only be deleted if it is not associated with any control within the configuration Deleting an This table outlines the steps for deleting an interpolation table Interpolation Table se on 1 Ensure that the correct configuration file is open then from the Home tab clic
79. mary Page 17 Section 1 The Home Tab The Home Tab Introduction The Home tab is the tab that displays when the LUIS Gen2 software is opened This tab provides the ability to update hardware open the WaveMaker configuration manipulate configuration files set defaults as well as manage plug ins and tables Home Tab This image shows the Home tab toolbar Toolbar ear Send Configuration 7 gt Bro BR O 2 Jan m s _ 0x43 0x45 0x53 18 L a amp Save Defaults Server List Devices Clear All ie Tables Waveforms Channels Sensors Open Save Clear Attachments Defaults Hardware Plugins Table Management WaveMaker Management Datalink Simulation Configuration Interface Options Hardware The Hardware section of the Home tab toolbar provides the ability to do some basic updating to the hardware Opens the Server Management window where servers ems can be added and edited Server tit For more information about servers see Page 128 Opens the Devices window where the devices can be selected and new firmware can be downloaded For more information about downloading firmware see Page 12 Continued on next page Page 18 The Home Tab Continued Hardware Continued Plug Ins Tables Wavemaker and Datalink Simulation This table continues to outline the capabilities available from the Hardware section of the Home tab toolbar Sets the value of all the controls in the current f f configuration to
80. mary Introduction LUIS Gen2 provides the ability to print a summary of all the controls within a configuration Configuration The Configuration File dialog box displays all the controls in the File Summary configuration listed by server To open the Configuration File dialog box click the LUIS icon in the upper left hand corner of the application and select the Print option The Configuration File dialog box shown in Figure 35 provides a toolbar for navigating the summary as well as setting up the print options This table and image describe the options on the toolbar 1 of 2 gt Di a3 Go we 100 Find Net 1 of 2 pi These icons are used to navigate through the pages of the summary within the Configuration File dialog box This icon is used to refresh the control list This icon is used to open the Print dialog box to print the summary E This icon is used to toggle between a print preview view and the standard view This is used to set up the print options such as margins and orientation This icon is used to export the file in either MS Excel or Adobe PDF format 100 This icon is used to set the size of the view within the Configuration File dialog box Find Net These icons are used to search for text within the Configuration File dialog box Continued on next page Page 63 Printing a Configuration File Summary Continued Figure 35 This is an example of a configuration in the Configuration F
81. menu Result The Frequency window returns to its docked position at the bottom of the workspace Continued on next page Page 37 Working with Windows Continued Figure 12 This image shows the Main window in the pinned status Pinned Engine Speed Position Window Freouncy 0x Default ij Figure 13 This image shows dropping the Frequency floating window into the center Floating to docking tool Tabbed Window ie Home Tools View Heip B rs AA sar we a Tate Rem l Add Modify Add Modify ma SS indow Tie Tie Window Panes Te GosedLoopControt DigitalDispiay Gauge Indicator Panel Switch E Throttle Switches Pressures Temps Misc Loads zx E Detaut Closed Loop Control Pane PercentLoad Gain Adjust Closed Loop Ee Start oir Reset off kal o o 7 Continued on next page Page 38 Working with Windows Continued Exercise The purpose of this exercise is to familiarize users with the manipulation of Working with windows in the LUIS Gen2 environment This exercise assumes that the Windows LUIS Gen2 hardware and software is already installed the hardware is Continued connected and turned on and the software is open with no configuration file loaded Hide a window Click the X icon on the right hand side
82. mulation 11939 Datalink Sensor Simulation Management LEJ meej T Management Message Definition Message Parameter Definition Window Name EECT Name Engine Speed Add New Save Desc Electronic Engine Controller 1 SiL Delete Cose ID 217056256 Length bits 3 fe Be Reisens Rate 20 ms Resolution 0 125 Bie Simt Bt ra 0 za 3 P 5 33 TSC1 Engine Retarder Torque Modes 6 41 Driver s Demand Engine Torque 7 49 Source Address of Controlling Device 8 57 Description The Length if the number of bytes that make up the data load for the message Figure 65 This is an example of the Select Items dialog box Select Items Dialog Box Select Items EEC1 E TSC1 Description Select items from the list and click Import to transfer the selected items into the configuration Page 120 Setting Up J1939 Parameters Setting Up J1939 Parameters Introduction Setting Up J1939 Message Parameters Once a J1939 message has been set up the user can define the parameters within that message This is accomplished through the J1939 Datalink Sensor Simulation Management window This table outlines the steps for setting up J1939 message parameters With the appropriate configuration file open from the Home tab click the SAE J1939 Sensors icon Result The J1939 Datalink Sensor Simulation Management window displays as shown in Figure 66 Verify the correct message definiti
83. ndow but not on a tile Testing Default Add Tile Delete All Tiles In Pane Change Rows Change Columns Rename Window Pane Delete Window Pane Page 40 Working with Tiles Introduction Adding Tiles Renaming Tiles Moving and Resizing Tiles Clearing Tiles Deleting Tiles Tiles are defined spaces within a window to which controls can be added All the controls within a tile are moved and removed from a window as a group Every window must have at least one tile Whenever a window is added to the workspace a tile named Default is automatically created Additional tiles can be added by clicking the Add Tile icon on the Tools tab Alternatively additional tiles can be added by right clicking anywhere in a window and selecting the Add Tile option from the menu If the number of rows and or columns has been set for the window the new tile will fill in the next open column or row If the number of rows and columns has not been set the new tile will fill in where it will fit Figure 16 shows an example of a window with two tiles Tiles can be renamed using the Modify Tile dialog box shown in Figure 17 This dialog box can be opened by right clicking on a tile and selecting the Rename Tile option from the menu or by clicking the Modify Tile icon on the Tools tab On the Modify Tile dialog box select the window where the tile resides in the Window Panes field select the tile in the Tiles field and ty
84. nel 1 in the channels list In the nput field select In the Card Type section select the Arbitrary option In the Arbitrary Card Settings section in the Waveform field select 2 from the dropdown list Note This sets the waveform to be 24 1 24 1 VR as indicated in the Waveform Definition field on the left hand side of the window In the Cycles Rev field type 2 In the Offset field type 0 Click the lt Save gt button Result The waveform information is saved Close the WaveMaker Management window and save the configuration Continued on next page on next page Exercise Assigning a Gen1 Waveform Continued Figure 58 This image is an example of assigning a waveform Assigning a Waveform LUIS Gen2 LUIS Gent Card Output mV Page 107 Waveform Definition 1 Waveforms for LUIS Gen1 are Stored in the Fimware Desorption 1 60 2 6 1 Hall ISB 2 24 1 24 1 VR 3 60 2 6 1 Hall HHP 4 24 1 24 1 Hal 5 60 2 12 1 Hall MYO7 amp 60 2 24 1 Hall HHP 45 60 7 NWA 8 N A 9 60 2 12 1 Hall MY07 11 60 2 4 1 Hall 13 60 2 4 1 Hall N A 15 N A Description LUIS Gen1 interface to the Wavemaker hardware gt PeakAdapter_ 1 X Arbitrary Card Settings Wavefom 2 A Offset 0 Co Page 108 Notes Page 109 Chapter 5 J1939 Sensors Overview Introduction Luis Gen2 provides the ability to receive J1939 messages thr
85. nel field select the appropriate channel Continued on next page In the Hardware section click the lt gt button next to the Indicators Continued Figure 83 Indicators Figure 84 Indicator Control Properties Page 153 This is an example of an Indicator control This is an example of the ToolBox dialog box for an Indicator control Allow Resize Background Color Background Image BorderStyle Component Size Indicator Color Text Color Text Font Hardware E Hardware Setup Channel Type E Server Name E Text Text Line1 TextLine2 B Value Definition Indicator Value False E GradientActiveCaption C none None 55 65 Red HE ControlText Microsoft Sans Serif Spt Resistive Load Resistive Load 2 Resistive Load 2 Resistive Load LUISGen2_ 1 Fan Clutch Continued on next page Page 154 Indicators Continued Configuring the This table continues to outline the steps for configuring an Indicator control Indicator Control Continued Click lt OK gt to close the dialog box Result The dialog box closes and the Channel and Type under Hardware Setup are filled in with the selection In the Text section the TextLinel and TextLine2 options are used to define the label that displays at the top of the control The Value Definition section can be used to set the Indicator Value for the control 10 The rest of the options on the Properties dialog box are used to control the look
86. ning WaveMaker an arbitrary channel for LUIS Gen1 Management LUIS Gen1 Window en DR Wavefoms for LUIS Gen1 are Stored in the Fimware Description 60 2 6 1 Hall ISB 24 1 24 1 VR 60 2 6 1 Hall HHP 24 1 24 1 Hall 60 2 12 1 Hall MY07 602 246 Hal HHP 45 60 VA N A 60 2 12 1 Hall MY07 A 60 2 4 1 Hall 60 2 4 1 Hall N A N A Description LUIS Gen1 interface to the Wavemaker hardware Continued on next page Page 104 Assigning a Gen1 Waveform Continued Assigning a This table continues to outline the steps for assigning a waveform to a Genl channel Waveform Continued Continued Channel Type Settings Digital or Digital Sim In the Output field select the correct output type If the number of teeth per revolution of the flywheel is necessary enter this number in the Teeth Rev field If PWM operation is desired for the channel enter its heart beat frequency in the PWM HB Freg field If PWM operation is not desired this value should be set to 0 When all the assignments have been made click the lt Save gt button Note This button saves the changes to the waveforms but the configuration needs to be saved to make the changes permanent in the configuration file Continued on next page Page 105 Assigning a Gen1 Waveform Continued Figure 57 This is an example of
87. o floating right click the title bar of the window and select the Floating option A docked window can also be changed to floating by grabbing the window s title bar and pulling it away from its docked position When moving a window that is floating the Docking tools shown in Figure 8 display Dropping a window in these tools automatically docks the window to the selected position in the workspace Dropping a window in the middle of the center docking tools changes the window s status to tabbed Dockable To change a tabbed window s status to dockable right click the title bar of the window and select the Dockable option The window docks to the last docked position Note Pinned windows must be unpinned before they can be changed Tabbed To change a window to the tabbed status right click the title bar of the window and de select the Dockable option Alternatively grab any window by the title bar and drag it to the middle of the center docking tools Hidden To change any window s status to hidden right click the title bar of the window and select the Hidden option Alternatively click the X in the upper right hand corner of the window s title bar To un hide the window go to the View tab and click on the window in the toolbar Continued on next page page Page 31 Working with Windows Continued Figure 7 Window Status In this image the Main window is currently unpinned and window shades to the left h
88. of tiles in the LUIS Gen2 environment This exercise assumes that the LUIS Gen 2 hardware and software is already installed the hardware is connected and turned on and the software is open with the configuration file saved in the previous exercise open Enlarge a tile Click the Switch to Normal Mode icon in the upper right hand corner of the Speed tile s title bar Result The Speed tile shrink back within the Frequency window and the Tach tile automatically resizes 11 Click the Enlarge icon in the upper right hand corner of the Speed tile s title bar Result The Speed tile expands within the Frequency window and the Tach tile automatically shrinks as shown in Figure 21 Change tile configuration From the Tools tab click the Modify Window icon Result The Modify Delete Window Pane window opens as shown in Figure 22 In the Window Panes section select the Frequency option In the Tile Layout section change the Min Tile Rows to 2 Figure 23 Change the Min Tile Rows back to 1 and click the lt Apply gt button Result The tiles move back to one row and display next to each other Click the lt Close gt button Result The Modify Delete Window Pane window closes Continued on next page 16 Click the lt Apply gt button Result The tiles within the Frequency window are now stacked to fill the minimum 2 rows set for the window as shown in Page 45 Working with Tiles Continued
89. of the Frequency window title bar Result The Frequency window is removed from the workspace Go to the View tab shown in Figure 14 and click the Frequency window icon Result The Frequency window returns to the workspace in its previous position Delete a window 19 On the Tools tab click the Add Window icon Result The Add Window Pane window displays In the Window Name field type Testing and click lt Apply gt Result The new window is added to the workspace and the other windows resize to accommodate it 21 Click the lt Close gt button Result The Add Window Pane window closes Right click in the Testing window just above the Default tile and select the Delete Window Pane option as shown in Figure 15 A dialog box displays to confirm the deletion Click lt Yes gt to confirm Result The Testing window is removed from the workspace Save a configuration Save the current configuration to a new configuration file name by clicking the LUIS icon in the upper left hand side of the window and selecting the Save As option Result The Configuration File dialog box displays where the new filename and location can be set Continued on next page Working with Windows Continued Figure 14 The View Tab Figure 15 Deleting a Window This is an example of the View tab which shows all the windows in the configuration Page 39 This is an example of the menu that displays when right clicking within a wi
90. on has been set up If it has not set it up according to the steps in the previous sections of this chapter On the Message Parameter Definition side of the window in the Name field type a name for the parameter Note Parameter names must be unique In the Start Bit field select the start bit for the parameter Note The start bit is the first bit in the data load for the message where this parameter data starts In the Resolution field enter the value per bit in engineering units Note This value is used to convert the engineering units on a gauge to the actual transmitted data Continued on next page Page 121 Setting Up J1939 Parameters Continued Figure 66 This is an example of the J1939 Datalink Sensor Simulation Management J1939 Datalink window Sensor Simulation 11939 Datalink Sensor Simulation Management Le me x T Management Message Definition Message Parameter Definition Window EEC Name Engine Speed Add New save Desc Electronic Engine Controller 1 Stat Bit Delete Close ID 217056256 sy Length 16 x bits cen i Resolution 0 125 Bit Reference et ms k Byte Stat Bi Length bytes Offset 0 I T 3 7 4 25 5 33 TSC1 Engine Retarder Torque Modes 6 41 Driver s Demand Engine Torque 7 49 Source Address of Controlling Device 8 57 Description The Length if the number of bytes that make up the data load for the message Continued on next
91. ough either the CAN servers or the Peak Adapter servers The Main Module is used to broadcast J1939 messages Messages and parameters are defined through the J1939 Datalink Sensor Simulation Management window In This This table outlines the topics covered in this chapter Chapter Setting up J1939 Messages 110 Setting up J1939 Parameters 120 Assigning a J1939 Parameter to Gauges 124 Page 110 Section 1 Setting up J1939 Messages Overview Introduction User can define J1939 messages that can transmit data through the Main Module or receive data through the Peak Adapter or CAN servers In This Section This table outlines the topics covered in this section Setting up J1939 Messages to Transmit Setting up J1939 Messages to Receive Importing J1939 Messages 118 Page 111 Notes Page 112 Setting Up J1939 Messages to Transmit Setting Up This table outlines the steps for setting up J1939 messages to transmit through J1939 Messages the CAN servers to Transmit With the appropriate configuration file open from the Home tab click the SAE J1939 Sensors icon Result The J1939 Datalink Sensor Simulation Management window displays as shown in Figure 59 On the left hand side of the window click the lt Add New gt button Result The New Message Creation dialog box displays In the field type the unique name of the J1939 message and click Result The name displays in the Name field as well as in the messag
92. ow Result The interface for working with Gen2 waveforms displays On the left hand side of the window in the Waveform Definition section click the lt Add New gt button Result The New Waveform Creation window displays and the name displays in the Name field In the Card Output table fill in the value displayed in the image on the facing page Result As the table is populated the Length field reflects the number of values in the table Click the lt Save gt button Result The waveform is saved to the library It is important to note that if the configuration file is closed without saving this waveform will be lost 4 In the field type 60 2 Missing Teeth Test and click lt OK gt Result The new waveform is added to the waveform library list Continued on next page Page 95 Exercise Defining and Assigning a Gen2 Waveform Continued Figure 53 This image displays the value for the table being created in Step 5 Table Definition T WaveMaker Manager am Gp Bie 6 SEE TLE Card Output mV Wavefom Definition Channel Definition 1 bata Name 60 2 Missing Teeth Test AddNew Name Server z sae 2 5000 2 a 3 5000 se Eiee rot Fea e A A Hardware Synchronizing 5 0 5 Master E Ext Sync Drive 6 0 aT Save A ER Master Channel y 3 5000 13 5000 i 14 5000 lil 15 5000 Description ba 5000 Create or Add Waveforms to be used in the configuration To Add a
93. page Page 122 Setting Up J1939 Parameters Continued Setting Up This table continues to outline the steps for setting up J1939 message J1939 Message parameters Parameters Continued In the Offset field that the value of the data is offset Note This value is used to convert the engineering units on a gauge to the actual transmitted data Once the parameter has been defined click the lt Add New gt button Result The parameter is saved to the message and displays in the field below the parameter definition fields To save the changes to the configuration click the lt Save gt button on the far right hand side of the window Note Save the configuration to make the changes permanent to the configuration file Continued on next page Page 123 Setting Up J1939 Parameters Continued Figure 67 This is an example of the J1939 Datalink Sensor Simulation Management J1939 Datalink window Sensor Simulation 11939 Datalink Sensor Simulation Management Ff mee S Management Message Definition Message Parameter Definition Window EEC Name Engine Speed Add New save Desc Electronic Engine Controller 1 Stat Bit Delete Close ID 217056256 Length 16 x bits cea Resolution 0 125 Bt Reference AEE ms k Byte Stat Bit Length bytes Offset 0 I T 3 17 4 25 5 33 TSC1 Engine Retarder Torque Modes 6 41 Driver s Demand Engine Torque 7 49 Source Address of Controlling D
94. pe LUISGen2_ 1 WaveMaker_ 1 Interface Type Pipename PeakAdapter_ 1 lt 1270 01 OO Standard Pipe connection to Server Cummins_Net Connected Description Create or Add Servers to be used in the configuration To Add a Server click Add and give it a name Configure and click Save Figure 72 New Server Creation Dialog Box Enter the name ofthe Server Page 134 Section 2 Deleting Servers Deleting Servers Deleting a To delete a server open the Server Management window by clicking the Server Server List icon on the Home tab Select the server to delete from the Servers list on the left hand side of the window and click the lt Delete gt button A dialog box displays to confirm the removal of the server Click lt OK gt to delete the server To make the changes permanent in the configuration file be sure to save the configuration Continued on next page Page 135 Deleting Servers Continued Figure 73 This is an example of the Server Management window Server Management Window PeakAdapter_ 1 PeakAdapter_ 2 PeakAdapter LUISGen2_ 1 WaveMaker_ 1 PeakAdapter_ 1 lt 127 0 0 1 0 Standard Pipe connection to Server Cummins _Net Connected Description Create or Add Servers to be used in the configuration To Add a Server click Add and give it a name Configure and click Save Page 136 Notes Overview Introduction In This Chapter
95. pe in a new name in the Tile Name field Tiles can be moved by grabbing the title bar of the tile and dragging it to a new position within the window Tiles automatically resize as the window is resized One tile can be enlarged to occupy the majority of the window decreasing the size of the others by clicking the Enlarge icon in the upper right hand side of the title bar Figure 18 shows an example of one tile being enlarged to occupy the majority of a tile All controls can be removed from a tile by right clicking in the tile and selecting the Clear Tile option from the menu Tiles can be deleted by right clicking in the tile and selecting the Delete Tile option from the menu Alternatively tiles can be deleted using the lt Delete gt button on the Modify Tiles dialog box Continued on next page Page 41 Working with Tiles Continued Figure 16 This is an example of a window with two tiles named Speed and Tach Window with Two Tiles Frequency SL Speed o Tach Figure 17 This is an example of the Modify Tile window Modify Tile Window Tile Name Speed Tiles Tach Figure 18 This is an example of a window with two tiles where one tile is enlarged Enlarged Tile _ 9x Speed 8 Tach Continued on next page Page 42 Working with Tiles Continued Exercise Working with Tiles The purpose of this exercise is to familiarize users with the manipulation of tiles in the LUIS Gen
96. pen Switch Value Open Continued on next page Page 158 Switches Continued Configuring the This table outlines the steps for configuring a Switch control Switch Control In the Hardware section click the lt gt button next to the Hardware Setup option Result The Hardware I O Selection dialog box displays In the Hardware Unit field select the appropriate module Result The channels available in that module displays in the Channel field In the Channel field select the appropriate channel Click lt OK gt to close the dialog box Result The dialog box closes and the Channel and Type under Hardware Setup are filled in with the selection In the Interpolation Table section use the down arrow next to the Table Name option to select the appropriate interpolation table In the Scale section the scale for the control can be set including the Multiplier and Scale Resolution In the Server section use the down arrow next to the Name option to select the appropriate server In the Text section the TextLinel and TextLine2 options are used to define the label that displays at the top of the control The Value Definition section can be used to set the Default Value for the control The Interlock section is used to interlock the value of this control with a parent control More information about using interlocks can be found on Page 160 10 11 12 13 14 15 17 18 user The rest of the options
97. port gt button Result The Import Tables dialog box displays Browse for and select the appropriate configuration file that contains the desired interpolation table Note To import a Gen file or other text file select txt instead of 12c in the file type dropdown list Click the lt Open gt button Result The Select Items window shown in Figure 42 displays with all the interpolation tables in that configuration file Select each of the interpolation tables to import and click the lt Import gt button Note If all the interpolation tables should be imported click the lt Select All gt button Result The selected table s is are imported and display in the Tables list on the Table Management window Close the Table Management window and save the configuration file Continued on next page Page 75 Importing an Interpolation Table Continued Figure 41 Table Management Window Figure 42 Select Items Window This is an example of the Table Management window EBCED Tables Sihat aie e Name EGROrficeTmptr Add New switch a Test Table E Input Units None a Defau Output Units Co Default 3 unts RAR_Switch Save Coolant _Level Resolution Scalar 64 Diesel_Oxidation Catalyst Notes Doser_Part_Filter_Out Import OEM_Pressure_Sensor e DPF_DeltaP PE Compress_Inlet_Temp es Oil_Pressure Hardware Output Range Soot_Fiter_Delta_P Min Value mV 0 i PPS2 PPS1 J Max Va
98. position and status of all the windows are saved as well Window Status Windows are placed within the workspace and can have one of four states and Positions tabbed dockable dockable and floating or hidden Tabbed When a window is tabbed it remains in full screen mode and a tab with the window s name displays at the top of the workspace Tabbed windows cannot be moved or resized Dockable When a window is dockable it can be docked to the top bottom left or right side of the workspace The width or length of the window can be adjusted from the dockable position by hovering over the edge of the window until the cursor changes to the re sizing cursor Dockable and Floating When a window is dockable and floating it floats above the workspace until it is re docked When the window is floating it can be moved around the workspace by dragging it by the title bar It can also be resized by hovering over the edges until the cursor changes to the re sizing cursor When a window is hidden it no longer displays in the workspace A hidden window can be unhidden by selecting it on the View tab Pinned When a window is pinned it will remain in the docked position whether it is Unpinned the active window or not When a window is unpinned auto hide the window will window shade into a tab in the last docked position when not active A window can be switched between pinned and unpinned by clicking the push pin icon in the uppe
99. r right hand corner of the window Continued on next page Page 27 Working with Windows Continued Window Status In this image the Main window is currently docked to the left hand side of the workspace and unpinned It window shades to the left hand side of the workspace when not active The Frequency window is docked to the bottom of the workspace and the rest of the windows are tabbed across the top of the workspace Home Tools View Help mi i gs m z O Qe a Add Modify Add Modify h Window Window Tile Tile Inac tive e Window Panes Tiles ClosedLoopControl DigitalDisplay Gauge Indicator Panel Switch Tabbed Unpinned gt g Thott Switches pressures Temps misc Loads E1 es Det Windows Window THROTTLE Remote rotis ONIDLE OFF IDLE pran Docked a Window Defaut j Tech 2 TACHOGRAPH ENGINE SPEED TURBO SPEED RPM RPM x1000 Continued on next page Page 28 Working with Windows Continued Adding This table outlines the steps for adding a new window Windows Add a new window Tools tab Click the Add Window icon Quick Access Toolbar Click the Add Window icon Workspace Right click any empty spot in the workspace not inside a tile and select the Add Window Pane option Result The Add Window Pane
100. rpose of this exercise is to familiarize users with the manipulation of Working with windows in the LUIS Gen 2 environment This exercise assumes that the Windows LUIS Gen2 hardware and software is already installed the hardware is Continued connected and turned on and the software is open with no configuration file loaded Work with an unpinned window Locate the Main tab on the left hand side of the workspace and hover over it Result The window slides out from the hidden position Click the push pin icon in the right hand corner of the title bar Result The window is now pinned to the workspace as shown in Figure 12 The Main tab disappears from its location on the left hand side of the workspace All the other windows resize to accommodate the new pinned window Click the push pin icon in the right hand corner of the title bar again Result The window is now unpinned in auto hide mode and slides back into the tab on the left hand side of the workspace Work with a floating window Right click the title bar of the Frequency window and select the Floating option from the menu Result The window now floats above the workspace 15 Drag the Frequency window by the title bar and drop it on the middle of the center docking tools shown in Figure 13 Result The Frequency window is now a tabbed window and displays at the end of the other window tabs Right click on the Frequency tab and select the Dockable option from the
101. ry_CH 2 Result The fields are filled with the information for this channel Page 97 Exercise Defining and Assigning a Gen2 Waveform Continued Figure 54 This image is an example of assigning a waveform Assigning a Waveform Waveform Definition Channel Definition Name 60 2 Missing Teeth Test Name Abivay CHEZ Err tet Z ro Hardware Synchronizing Arbitrary Card Settings 60 2 Missing Teeth Test Arbitrary CH 1 5000 Description Select the Master channel that will drive this Slave channel Ext Sync Drive is an extemal input used to syncronize mutiple WaveMaker units DT Page 98 Notes Page 99 Section 2 Working with Gen1 Waveforms Overview Introduction LUIS Gen1 waveforms use the Peak Adapter servers The waveforms are all resident in the firmware and cannot be modified by the user Because of the way the Gen1 firmware was coded Gen1 waveforms must be loaded into Channel 1 The waveform combination will automatically be loaded into Channel 1 and Channel 2 The WaveMaker Management window is used to assign the desired waveform into Channel 1 In This Section This table outlines the topics covered in this section Assigning a Genl Waveform 100 Exercise Assigning a Gen Waveform 106 Page 100 Assigning a Gen1 Waveform Introduction All Gen waveforms are resident in the firmware and they can be assigned to Channel 1 on the WaveMaker Management window
102. s 41 and 50 at the rear panel the commons remain in the groups of 5 However if no jumper is connected all 8 group commons are in turn tied together making all switch commons equal Up to 2 switch modules are supported by the system Panel The front panel of the Switch Module provides indicates LEDS and the rear Descriptions panel provides the connection to the ECM SWITCH MODULE This table describes the controls found on the front panel POWER LED Indicates that the internal power supply is powered on and functioning normally STATUS LED Indicates that module has completed its power up sequence and is ready to accept commands from the PC SWITCH Indicates the ON OFF state of each switch STATUS LEDs Continued on next page Page 177 Switch Module Description Continued Switch Module This diagram illustrates the pinout for the Switch Module Pinout Mating Connector Switch 1 DRC26 505 01 GREEN Switch 2 Switch 3 Switch 4 Switch 5 SW 1 5 Common Switch 6 Switch 7 Switch 8 Switch 9 Switch 10 SW 6 10 Common Switch 11 Switch 12 Switch 13 Switch 14 Switch 15 SW 11 15 Common Switch 16 Switch 17 Switch 18 Switch 19 Switch 20 SW 16 20 Common Switch 21 Switch 22 Switch 23 Switch 24 Switch 25 SW 21 25 Common Switch 26 Switch 27 Switch 28 Switch 29 Switch 30 SW 26 30 Common Switch 31 Switch 32 Switch 33 Switch 34 Switch 35 SW 31 35 Common Switch 36 Switch 37 Switch 38 Switc
103. s LEDS and test Descriptions points and the rear panel provides the connection to the ECM ANALOG MODULE This table describes the controls on the front panel POWER LED Indicates that the internal power supply is powered on and functioning normally STATUS LED Indicates that the module has completed its power up sequence and is ready to accept commands from the PC Test Points Provides a method for measuring voltage for each of the outputs Note The test points are limited to 20mA output Continued on next page Analog Module Description Continued Analog Module Pinout DRC26 505 03 RED se This diagram illustrates the pinout for the Analog module Mating Connector A0_1 03 AO 4 Vref Range Vref_l 4 0 15 Vref_Rtn_1 4 AO 5 AO 6 AO 7 AO 8 Outputs Rated Vref_5 8 0 Vref 20mA Vref_Rt_5 8 AO 9 AO 10 AO 11 AO 12 Vref 9 12 Vref _Rtn_9 12 A013 AO 14 AO_15 AO 16 Vref_13 16 Vref Rin 13 16 AO_17 AO 18 AO 19 AO 20 Vref_17 20 Vref Rtn 17 20 AO 21 AO 22 AO 23 AO 24 Vref 21 24 Vref Rn 21 24 AO 25 AO 26 AO 27 AO 23 Vref _25 28 Vref _Rin 25 28 AO 29 AO 30 AO_31 AO 32 Vref_29 32 Vref Rtn 29 32 Analog Module 1 Page 175 Page 176 Section 4 Switch Module Description Switch Module Description Introduction Switch contacts are rated for 1 5A The internal switch relay commons are connected in groups of 5 If a jumper is inserted between pin
104. s field and click the lt Delete gt button Note Clicking the X in the upper right hand side of the title bar removes the window from the workspace but does not delete it from the configuration file Continued on next page Page 33 Working with Windows Continued Figure 9 This is an example of the Modify Delete Window Pane window Modify Delete Window Fane Most Wn Ow 2 Modify Window Pane Window Window Panes Window Name Switch Inputs Analog Tile Layout E Min Tile Columns 1 Min Tile Rows 1 Continued on next page Page 34 Working with Windows Continued Exercise Working with Windows The purpose of this exercise is to familiarize users with the manipulation of windows in the LUIS Gen2 environment This exercise assumes that the LUIS Gen2 hardware and software is already installed the hardware is connected and turned on and the software is open with no configuration file loaded Open a configuration file the right hand side of the title bar to close it Result The Configuration File window displays Locate the sample 12c file select it and click lt Open gt Result The configuration file loads This configuration file has 7 windows The Main window is docked and unpinned to the left hand side of the screen and the remaining windows re tabbed Add a window On the Tools tab click the Add Window icon Result The Add Window Pane window displays as shown in Figure 10 In th
105. the WaveMaker Management window when defining WaveMaker a digital channel for LUIS Gen1 Management LUIS Gen1 pi Wave 4 5 Eh LuisGen2 LUIS Gent Window Waveform Definition Channel Definition Waveforms for LUIS Gen1 are Stored in the Fimware Name Channelf 1 Sever m z m re ro i Son Y 602 6 1 Hal 5B i 2 24 1 24 1 VR Card Type Digital Card Settings 3 60 2 6 1 Hall HHP Hee ale ree Abiray F Sme Outpt Type 60 2 24 1 Hall HHP 45 60 Digtal Teeth Rev a ae Digtal Sm PWMHB Fea Q000 9 manzi Hall MY07 11 60 2 4 1 Hall N A 13 60 2 4 1 Hall N A 15 N A Description LUIS Gen1 interface to the Wavemaker hardware Page 106 Exercise Assigning a Gen1 Waveform Exercise The purpose of this exercise is to familiarize the user with using the Defining and WaveMaker Management window to define and assign waveforms Assigning a Gen1 Waveform On the Home tab click the Waveforms Channels icon Result The WaveMaker Management window opens Click the LUIS Gen1 tab at the top of the window Result The interface for assigning the Genl waveforms resident in the firmware displays as shown in Figure 58 On the right hand side of the WaveMaker Management window in the Channel Definition section from the Server dropdown list select PeakAdapter_ 1 Result The first channel is highlighted and its information displays in the fields 2 i Select Chan
106. their default Clear AIl The Plug Ins Tables WaveMaker and Datalink Simulation sections of the Home tab toolbar provide the ability to manage plug ins tables and waveforms as well as simulate datalink messages View currently installed plugins Plugin Manager Opens the Table Management window where interpolation tables can be defined For more information about working with interpolation tables see Page 65 Tables Opens the WaveMaker Management window where waveforms can be defined for use with the WaveMaker application Waveforms Channels For more information about the WaveMaker application see Page 78 Continued on next page Page 19 The Home Tab Continued Plug Ins This table continues to outline the capabilities available from the Plug Ins Tables Tables WaveMaker and Datalink Simulation sections of the Home tab Wavemaker toolbar and Datalink Simulation Continued Opens the J1939 Datalink Sensor Simulation Management window where J1939 messages can be defined ear a J1939 0x43 0x45 0x53 Sensors For more information about J1939 Datalink Sensor Datalink Simulati i atalink Simulation Simulation see Page 108 Manipulating The Configuration section of the Home tab toolbar provides the ability the Configuration work with configuration files Files Opens the Configuration File dialog box where a configuration can be selected and opened Opens the Configuration F
107. tions are Pipelines vv PeakAdapter_ 1 Server Cummins Accepts CAN Bus LUIS Gen1 Safiware la gt Client DLL a Pipeline Peak Adapter gt 250k 500k a WaveMaker II Client baud Client DLL Performs All transactions Callbacks from servers load configurations and push waveform data to PeakAdapter_ 2 Server Wavemaker units yy CAN Bus 250k 500k baud Pipeline Peak Adapter a gt Servers can have multiple Clients When clients send data to hardware devices that data is reflected to any client connected Pipelines can connect to multiple Clients In this architecture the Client DLL performs all transactions callbacks from servers as well as loading configurations and pushing waveform data to Wavemaker units Continued on next page Page 130 Overview Continued Interface Types There are three types of interfaces for servers This table describes each type An internal Windows connection in the PC TCP Network interface connection utilizing Transmission Control Protocol HTTP Network interface connection utilizing HyperText Transport Protocol In This This table outlines the topics covered in this chapter Chapter Setting Up Servers 104 Deleting Servers 134 Page 131 Notes Page 132 Section 1 Setting Up Servers Setting Up Servers Introduction Setting Up Servers Before a server can be used in the LUIS Gen2 soft
108. to select the appropriate interpolation table In the Scale section the scale for the control can be set including the Minimum and Maximum values as well as the Multiplier and Scale Resolution In the Server section use the down arrow next to the Name option to select the appropriate server In the Text section the TextLinel and TextLine2 options are used to define the label that displays at the top of the control The Value Definition section can be used to set the Default Value for the control The Interlock section is used to interlock the value of this control with a parent control More information about using interlocks can be found on Page 160 The rest of the options on the Properties dialog box are used to control the look of the control These can be set as desired by the user Continued on next page Page 151 Gauges Continued Figure 82 This is an example of the ToolBox dialog box for configuring gauges Gauge Properties Tool x Properties o AE E Appearance Allow Move True Allow Resize False Background Color E GradientActiveCaption Background Image C none BackgroundimageLayout Tile BorderStyle None Component Size 180 220 Gauge Font Microsoft Sans Serif Spt Text Color HB Control Text a Text Font Microsoft Sans Serif 8 75pt E Component Options Enable True Gauge Type Round Interlock Dependencies Collection E Interlock Setup E S Channel Analog Output
109. ule Pinout VBATT Supply Ground Mating Connector VBATT_IN 42816 0212 Loads Module Mating Connector 09 50 3061 Automated Test Sensor Simulation iis at RLY1 OUT RLY2 OUT Power Out RLY3 OUT Mating Connector RLY4 OUT 43914 1102 GND GND VBATT_OUT VBATT_OUT Main Module Page 171 Section 2 Wavemaker Module Wavemaker Module Introduction Panel Descriptions Each Wavemaker Module supports up to 8 arbitrary waveform outputs with an arbitrary waveform card required for each channel The arbitrary waveform outputs may range 6v 12 bit resolution and up to 32 k datapoints per channel In addition any channel may be synchronized with any other channel Each Wavemaker Module includes 10 digital outputs These outputs can be set for 0 5v or Sv square wave output up to 1MHz Any digital channel may be synchronized with any other digital or arbitrary channel The front panel of the Wavemaker Module provides indicator LEDS as well as output test points The rear panel provides the connection to the ECM WAVEMAKER This table describes the controls found on the front panel POWER LED _ Indicates that the internal power supply is powered on and functioning normally STATUS LED Indicates that the module has completed its power up sequence and is ready to accept commands from the PC Continued on next page Page 172 Wavemaker Module Continued Panel This table continues to des
110. unts and or millivolts for an assigned channel Digital Display The Digital Display consists of four elements The label is always present but the Eng Units Counts and mVolts displays can be displayed or hidden Figure 77 and this table describe these elements Displays a user defined label for the control Displays the engineering units Configuring the This table outlines the steps for configuring a Digital Display control Digital Display Control Add a Digital Display shown in Figure 77 to a tile by dragging it from the Tools tab Right Click the control and Select the Properties option from the menu Result The Toolbox dialog box displays as shown in Figure 78 Determine which of the elements to display on the control To remove an element from the display in the Appearance section of the Toolbox delete the units for the appropriate element Eng Units Table Units and or Hardware Output Units Result When the units are deleted the element is removed from the Digital Display Continued on next page Digital Displays Continued Figure 77 Digital Display Figure 78 Digital Display Properties Page 145 This is an example of a digital display control displaying all elements Intake Temp DegC 72 Counts 335 mVolts 335 This is an example of the Toolbox dialog box for a Digital Display control ToolBox Properties 24 E Appearance Allow Resize Background Color Background Image Component Size
111. ware the server and interface types must be set up This table outlines the steps for setting up a server 1 On the Home tab click the Server List icon Result The Server Management window shown in Figure 71 displays and the current servers are listed in the Servers field on the left hand side 2 Click the lt Add New gt button Result The New Server Creation dialog box displays as shown in Figure 72 3 Type the name of the new server and click lt OK gt Result The new server is added to the Servers field on the left hand side of the window the name of the new server displays in the Name field on the right hand side of the window and the default information is filled in 4 From the Server Type dropdown list select the appropriate server type interface type desired BA type the name of the net to which the server should connect Da The Status field indicates the status of the server If the server is Ei disconnected attempt to connect to the server by clicking the lt Connect gt button When the server is set up click the lt Save gt button 10 Close the Server Management window and save the configuration file If the Interface Type is Pipe then in the Pipename field type the correct pipename Continued on next page Page 133 Setting Up Servers Continued Figure 71 This is an example of the Server Management window Server Management Window Name PeakAd Server Ty
112. ware I O Selection dialog box closes and the Channel and Type fields are completed on the Toolbox dialog box In the Hardware Unit field select Wavemaker Continued on next page Working with Controls Continued Page 53 ik Figure 28 This is an example of the Toolbox dialog box The Toolbox Dialog Box ToolBox x Properties o G2 S Appearance Allow Move True Allow Resize False Background Color E tnactiveCaption Background Image C fone BackgroundimageLayout Tile BorderStyle None Component Size 185 210 Microsoft Sans Serif 8 25pt Text Color HM Control Text Text Font Microsoft Sans Serif 8 75pt Component Options Enable True Gauge Type Round Interlock Dependencies Collection Interlock Setup B Hardware Hardware Setup WaveMaker Arbitrary_CH 1 B Interpolation Table TableName FREQ E Layout Location 0 0 2 Scale Digits Displayed 1 Maximum 3000 Minimum 0 Multiplier 1 E Server Name WaveMaker_ 1 E Text TextLine1 ENGINE SPEED TextLine2 RPM Value Definition Default Value 10 Gauge Value 0 Gauge Font Gauge Font Figure 29 This is an example of the Hardware I O Selection dialog box Hardware I O Selection Dialog Hardware I O Selection In Box Hardware Unit Channel WaveMaker Arbitrary _CH 1 Analog Output Child 1 Analog Output LUISGen1 Arbitrary_CH 2 Child 1 Main LUISGen1 Arbitrary _CH 3 Child 1 Switch LUISGen1 Arbitrary _CH 4 Child 2 Analog Output LUISGen1 Arbitrary _
113. wer LED Indicates the internal power supply is powered on and functioning normally Status LED Indicates that the module has completed its power up sequence and is ready to accept commands from the PC VBATT LED Indicates that a VBATT source is connected and the VBATT relay is turned on Note If the relay is on but no VBATT source is connected the LED will not turn on VBATT Test Provides a method for measuring VBATT voltage Point Note The test point is current limited to 20mA RELAY 1 4 Indicates that a relay source is connected and is turned LEDs on Note If the relay is on but no source is connected the LED will not turn on RELAY 1 4 Test Provides a method for measuring relay voltage Points Note The relay is current limited to 20mA Continued on next page Page 169 Main Module Continued Back Panel This table outlines the controls found on the back panel of the Main LUIS Description Gen2 module r J1939 Pog lf eass N gt SENSOR SIMULATION LOADS MODULE Note Acceptable VBATT source range is 0 32V 30A J1939 SENSOR Provides a J1939 port for sensor simulation broadcast SIMULATION and RS232 connection for serial port control using legacy DLB commands LOADS Provides power and GarTech proprietary control bus MODULE connections to the injector loads module Continued on next page Page 170 Main Module Continued Main Module This diagram illustrates the pinout for the main mod
114. window displays as shown in Figure 5 In the Dock Location section select where the new window should be docked within the workspace In the Window Name field type the name for the window In the Tile Layout section type the minimum number of columns and rows When the window has been defined click the lt Add gt button Result The window is added to the workspace as shown in Figure 6 Note that every window automatically has one tile called Default If the window should be unpinned window shade to the docked position when not active select the Unpin checkbox Continued on next page Page 29 Working with Windows Continued Figure 5 This is an example of the Add Window Pane window Add Window Pane Add Window Pane P Add Window Pane Dock Location Window Name Top Analogs 0 7 O Left Right Tile Layout Bottom Min Tile Columns 1 MinTileRows 1 Figure 6 This is an example of a new window added to the workspace that is docked to New Window the top Home Tools View Help 2206 i Add Modify meaa Window Window Tile Tie OT Detsult Ix my as Continued on next page Page 30 Working with Windows Continued Changing a A window s status can be changed between tabbed dockable dockable and Window s floating and hidden in a couple of ways This table describes changing status Status Floating To change any window s status t
115. wn arrow next to the Name option to select the appropriate server In the Text section the TextLinel option is used to define the label that displays at the top of the control The Value Definition section can be used to set the Default Value for the control The Interlock section is used to interlock the value of this control with a parent control More information about using interlocks can be found on Page 160 The rest of the options on the Properties dialog box are used to control the look of the control These can be set as desired by the user Note More information about Interlock Setup can be found later in this chapter In the Scale section the scale for the control can be set including the Minimum and Maximum values as well as the Multiplier and Scale Resolution Continued on next page Digital Displays Continued Figure 79 Digital Display Properties ToolBox Properties G22 E 8 O OF O88 Appearance Allow Resize Background Color Background Image Component Size Engineering Units ForeColor Hardware Output Units Table Units Text Color Text Font Component Options Interlock Setup Hardware Hardware Setup Interpolation Table TableName Scale Maximum Minimum Multiplier Scale Resolution Server Name Text TextLine1 Value Definition Default Value Engineering Value Hardware Value Table Value Page 147 This is an example of the Toolbox dialog box for a Digital Display control
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