Home

MoTeC SDL User Manual

1. The method of using the selected item or control depends on what type of control it is The common controls are detailed below MoTeC Windows Keyboard Use 39 Button Buttons are generally used to show another screen or perform a particular function Hold down the Alt key then press the underlined Letter S or navigate to the button using the Tab key then press the Enter key or the Space Bar Check Box omar Remove message Je Automatically A check box is used to tick on or off a particular option Hold down the Alt key then press the underlined Letter A or navigate to the Check Box using the Tab key then press the Space Bar Radio Buttons Warning Light C Do Not Activate Ligh e Activate Light Flash Light Radio buttons are used to select an item from a group of options Hold down the Alt key then press the underlined Letter of the desired option D tor E or navigate to the Radio Buttons group using the Tab key then use the arrow keys to select the desired item Edit Message e Text DVER FEW An edit control is used to enter a value or text Hold down the Alt key then press the underlined Letter of the text above the edit box T or navigate to the button using the Tab key then type in the new value or text Use the Backspace key or Delete key to remove unwanted characters 40 Windows Keyboard Use Drop down List Mode Output Mode Shift Light 1 Shift Light 1 Shift
2. Enter OK or Close Only works when the OK or Cancel button has a bold line around it Esc Cancel or Close Getting Help To get help on the current screen or screen item press the F1 key or press Alt H if the screen has a Help button To access the main help system select Help from the Main Menu 38 Windows Keyboard Use Selecting an Item in a Window hange Alarm Alarm Condition Ix Activate Alarm if any of the following conditions apply PM gt 8000 rom for 0 20 s 2 Add Change Remove 1 comparison available N Message Text OVER REV Include the value of the channel from first Alarm Condition Units Decimal Places Warning Light C Do Not Activate Light Ce Activate Light Flash Light Acknowledgement Remove message V Automatically after 20 seconds or when acknowledge button is pressed Do not display this message again until o seconds have elapsed Cancel Help To access the various items in a window hold down the Alt key and press the key corresponding to the underlined letter of the item of interest for example to select the Flash Light item press Alt F Alternatively the Tab key may be used to progress from one item to the next use Shift Tab to move backwards The selected control is usually indicated by a dotted line around it or by highlighting the text or item selected within the control Using the Selected Item
3. The SDL comes with an optional 8Mbytes log memory enabled It is also possible to purchase a display only SDL without the memory option enabled Data is logged continuously logs data to memory whenever the Start Condition is true and the Stop Condition is false 6 Overview When the logging memory is full the SDL begins to overwrite the oldest data which ensures that the most recent data is always available This is referred to as cyclic logging Power The SDL power can be turned off at any time without losing the logged data The SDL uses FLASH memory which does not require an internal battery to keep it alive Logging Rate The SDL can store any value at up to 200 times per second which can be individually set for each logged item The rate at which the values are logged is very important the value must be logged fast enough to record all variations in the reading If the value is logged too slowly then the readings can be totally meaningless For example suspension position normally needs to be logged at 100 times per second or more Note however that if a value is logged faster than necessary it will not improve the accuracy of the logged data it will just reduce the total logging time available For example the engine temperature only needs to be logged at once per second Logging Time The maximum logging time is dependent the number of items logged and the rate at which they are logged The configuratio
4. Physical Case Size SDL 180 5 x 91 5 x 18 0 mm 7 1 x 3 6 x 0 7 inches Weight 385 grams 0 85 Ib Power Supply Operating Voltage 7 to 22 Volts DC Operating Current 0 15 Amps Typical excluding sensor currents Reverse Battery Protection Battery Transient Protection Operating Temperature Internal Temperature Range 10 to 80 C Ambient Temperature Range 10 to 70 C typical Sensor Supply Current 5V Sensor Supply 0 2 Amps Max 8V Sensor Supply 0 3 Amps Max Internal Sensors G Force Lateral G Force Vertical Battery Voltage Dash Temperature MoTeC Appendices 43 Appendix B Options Summary The following options are available Pro Analysis Option Advanced Analysis features in the Interpreter software including e multiple graph overlays e time variance between 2 laps e statistical zoom on sections of data e suspension analysis e user math expressions e track map section times e track statistics e lap maps e XY graphs Lambda Option 1 Wide Band Lambda Air fuel ratio measurement input Logging Enables 8Mb of log memory 44 Appendices Appendix C Sport Dash Manager Command Line Usage sportdash exe c connection d x l e t s config file name config file name Optional Fully qualified path to the configuration file eg c motec dash config SDL bathurst u1 1 Note the path must included the file extension eg u11 Options Each of the following options can be given as
5. Voltage output sensors amp Variable resistance sensors with a pullup resistor Measurement Voltage Range Inputs 1 to 4 0 to 5 5 V Inputs 5 to 8 0 to 15 3 V e Note that voltages outside this range may affect the readings on other inputs Input Resistance 100k ohms to OV Resolution Inputs 1 to 4 1 35 mV Inputs 5 to 8 3 74 mV Measurement Methods Ratiometric Absolute Variable Resistance Off On Update Rate Inputs 1 to 4 1000 times second for anti aliasing Update Rate Other inputs 500 times second for anti aliasing Filter 150Hz 1 order Calibration Accuracy Gain Ratiometric operation 0 05 max Gain Absolute operation 0 15 max Offset 6 mV max Linearity 6 mV max Temperature Stability 60 ppm C max Calibration Schedule 12 Months Analog Temp Inputs Suitable for 2 wire variable resistance sensors and some voltage output sensors MoTeC Appendices 47 Measurement Voltage Range 0 to 15 V e Note that voltages outside this range may affect the readings on other inputs Input Resistance 1000 ohms pullup to 5V sensor supply 100k to OV Resolution 3 74 mV Measurement Methods Ratiometric Absolute Variable Resistance Off On Update Rate 500 times second Filter 150Hz 17 order Calibration Accuracy Gain Ratiometric operation 0 05 max Gain Absolute operation 0 15 max Offset 6 mV max Linearity 6 mV max Temperature Stability 60 ppm C max Calibration Schedule 12 Month
6. character or character They are shown here as character c Connection Name Optional Select a preconfigured connection by name as configured in the dash connections dialog eg c Primary CAN Connection Note There must not be a space between the c and the connection name d Optional Causes the debug console to be displayed Only available for debug builds X Optional Causes the app to terminate when one the following tasks has been performed Tasks One or more of the following may be specified Optional MoTeC Appendices 45 Perform a Get Logged Data operation e Optional Perform a Get Engine Log operation t Optional Perform a Get Tell tale Values operation Optional Perform a Print Summary operation Note The config file must be specified using a fully qualified path including the file extension eg p c motec dash config SDL bathurst u1 1 Note There must be a space between p and config name S Optional Perform a Send Configuration operation Note The config file must be specified using a fully qualified path including the file extension eg s c motec dash config SDL bathurst u1 1 Note There must be a space between s and config name U Optional Perform an Upgrade Dash Version operation 46 Appendices Appendix D Input Characteristics Analog Voltage Inputs Suitable for Potentiometers
7. of the auxiliary outputs LEDs LEDs may be wired to any of the four Auxiliary Outputs The LEDs must be wired between one of the Auxiliary Outputs and battery positive and must include a current limiting resistor Thermocouples Thermocouples must be wired to the SDL via a thermocouple amplifier The MoTeC Thermocouple Amplifier TCA may be used with K Type thermocouples and may be connected to either the Analog Voltage or Analog Temperature inputs of the SDL Connecting to a MoleC ECU An ECU may be connected to the SDL which will make information in the ECU available to the SDL for display or logging or any other purpose MoTeC M400 M600 M800 M880 ECUs may be connected via CAN or via RS232 MoTeC Installation 21 The MoTeC M4 M48 amp M8 ECUs must be connected via RS232 Connection via RS232 The telemetry feature of the MoTeC ECU is used to send data to the SDL via an RS232 connection See Appendix G ECU to SDL Wiring RS232 for wiring details ECU Setup The ECU Telemetry Set and Telemetry Baud Rate should be selected to suit an RS232 communications template supported by the SDL SDL Setup Setup for the SDL is done in the Inputs Communications setup screen Select a communications template that matches the ECU type and ECU telemetry set In the displayed channel list check those channels that you wish to receive in the SDL Interruption of the Data Note that when using RS232 the da
8. Tables Measurement Inputs The SDL measurement inputs can be connected to a wide variety of sensors This allows the SDL to measure vehicle parameters such as Suspension Movement Wheels Speeds Steering Angle Engine Temperature etc Input Types The SDL has a number of different input types which are designed to suit the different types of sensors The following inputs are available e 8 Voltage Inputs 4 Temperature Inputs 1 Optional Wide Band Air Fuel Ratio Input Lambda Input 2 Switch Inputs 2 Digital Inputs MoTeC Overview 9 e 2 Wheel Speed Expander Inputs Additionally one E888 expander may be connected to read from 8 K type thermocouples Internal Sensors The SDL also includes internal sensors for G Force Lateral G Force Vertical Battery Voltage and SDL Internal Temperature Sensors Different types of sensors are available to suit different types of measurements Sensors convert a physical measurement e g Pressure into an electrical signal e g Volts Different types of sensors generate different types of electrical signals For example most temperature sensors convert the temperature into a variable resistance signal which may be measured by the SDL Temperature inputs however most wheel speed sensors generate a variable frequency signal which must be connected to either a Digital input or a Speed input Calibration Calibration is the process of converting the electrical value e g Volts in
9. The units for a channel can be selected from a predefined list for example the Engine Temperature channel may have units of Celsius Fahrenheit or Kelvin Conversion between units is automatically handled by the software Note that the units are used for display purposes only This means that the units can be changed at any time with out affecting the calibration of the channel Channel Resolution The resolution of all channels is fixed for example the resolution of the Engine Temperature channel is fixed at 0 1 C Fixed channel resolutions ensure that the unit conversion system works properly and that channel comparisons can be performed correctly Selecting Channels There are two methods of selecting channels either the Category Method or the Search Method Category Method This method divides all the channels into categories and sub categories so that the list can be narrowed down to a small list of channels For example the Engine Sensors Cooling category shows a list of channels associated with the cooling system of the engine 32 Sport Dash Manager Software When selecting a channel from the complete list of channels it is usually easiest to use the category selection method for example when assigning a channel to an input pin To expand a category click on the sign next to the category name Category Search Engine Sensors Common Engine Air Air Fuel Ratio Antidetonant Cooling Engin
10. are stored in files on the PC hard disk and can be sent to the SDL at any time When changing the configuration changes are only made to the file on the PC The file must be sent to the SDL before the changes take affect Creating a New Configuration File A new configuration file can be created by selecting File New from the main menu this will create a new configuration based on one of a number of predefined templates After a new configuration has been defined it should be saved with a meaningful name by selecting File Save from the main menu the file may then be sent to the SDL by selecting Online Send Configuration from the main menu Alternatively a new file can be created by loading an existing configuration file and saving it to a new file by selecting File Save As from the main menu Opening an Existing File Before an existing configuration file can be modified or sent to the SDL it must first be opened To open a configuration file select File Open from the main menu and select the desired file MoTeC Sport Dash Manager Software 27 Note that the most recently used files appear at the bottom of the File menu which is often the easiest way to open a recently used file Sending the Configuration to the SDL The currently open configuration file can be sent to the SDL by selecting Online Send Configuration from the main menu When a configuration file is sent to the SDL any changes are automatically sav
11. cleared and logging will continue as normal at the end of the existing data Next time the logged data is unloaded both the new data and the previously partly unloaded data will be retrieved Track Map Sensor Requirements In order for the logging analysis software to plot a track map the following sensors are required and must be logged e Lateral G force inbuilt in the SDL e Wheel Speed e Lap Beacon from either MoTeC Beacon kit or a switch Note that the Beacon Channel must be logged e Longitudinal G force Optional See Below A Longitudinal G force sensor should be used if the vehicle has only one wheel speed sensor This allows the analysis software to eliminate wheel lockups which is essential when creating or using a track map Other Functions The SDL can perform many other functions and calculations including the following 8 Overview Functions e Shift Lights Controls up to 3 staged shift lights e Engine Log Can be used to record engine running times during the specified condition Calculations The SDL can calculate and display any of the following e Lap Time Running Lap Time Lap Number e Ground Speed Drive Speed Lap Distance Trip Distance Odometer e Lap Time Gain Loss continuously displays how far behind or ahead the vehicle is compared to a reference lap e Current Gear e Minimum Corner Speed Maximum Straight Speed e Fuel Used Fuel Remaining e Two 2D and two 3D Lookup
12. currently available Version 1 1 0 49 but will be available at a later stage The Sport Dash Manager software is used for e Editing the configuration files e Sending configuration files to the SDL e Retrieving the logged data from the SDL e Testing the SDL e Enabling SDL options e Upgrading the SDL software version e Changing event venue and vehicle details Computer Requirements The Personal Computer PC must be an IBM PC compatible running Windows 98 2000 XP Recommended Minimum Specifications Pentium Ill 64Mb RAM USB1 0 or Parallel Port USB Port or Printer Port The PC must have a USB1 0 or compatible USB port or a Printer port The USB port is the recommended connection method because it is much faster however if necessary a MoleC CAN Cable may be used instead which should be connected to the printer port 24 Sport Dash Manager Software Installing Sport Dash Manager From a CD ROM Place the CD ROM into the CD drive of the pc A new window will appear This can be navigated in the same way as a web page If it does not appear click on the Windows Start button and select Run Type D index htm Click on the button marked Software Archive Select the version of Sport Dash Manager or other software that you wish to install and click on the name When the dialog appears asking you to Open or Save the selected file choose Open and then follow the setup program instructions F
13. is that many devices can be connected to the CAN bus at once which allows all connected devices to communicate with each other also the CAN port communicates at very at high speed Other MoTeC products that use CAN for intercommunication include the M800 BR2 PLM and MDD Note that these devices communicate at 1Mbit sec so any other devices connected on the CAN bus must also communicate at 1Mbit sec ECU Connection The SDL can be connected to many Engine Management Systems ECUs This avoids duplication of sensors and allows the SDL to display and log many ECU parameters The ECU may send up to 40 values to the SDL The update rate of these values depends on how many values are transmitted the communications baud rate and if sent using CAN or RS232 For RS232 the typical update rate is about 20 times per second and for CAN it is about 50 times per second Note that logging the ECU values faster than these rates is unnecessary and will reduce the total logging time 14 Overview e Note that if the SDL is connected to a MoTeC M800 ECU the M800 sensors should be calibrated in metric otherwise special scaling will be required Lap Beacon A Lap Beacon can be connected to the SDL in order to record Lap Times for display and to provide lap reference information for the data logging analysis software The MoleC Lap Beacon consists of a Transmitter which is mounted beside the track and a Receiver which is mounted in the vehicle
14. pin PC Connector if used 2 B17 40 3 Bi8 31 M800 M880 5 B14 13 ECU Note that the data to the SDL will be interrupted while a PC is connected DOS software only Note that the 9 pin connector is not used if using the Windows Calibration software Note that data may be sent to the SDL via the CAN bus as an alternative to the serial connection M4e 9 Pin PC Connector M4e ECU Note that Older M4 ECUs require a different connection method Note that the data to the SDL will be interrupted while a PC is connected MoTeC Appendices 55 M48 M4 pre M4e and M8 The M48 8 M8 and M4 pre M4e require the use of a CIM module or a PCI Cable to convert the logic level signals used by these ECU s into RS232 levels Using a CIM Module M4 M48 M8 ECU PC Comnector Refer to the CIM module drawing for full wiring details Note that the data to the SDL will be interrupted while a PC is connected Using a PCI Cable Direct Connection PCI Cable PC Interface Cable R M4 M48 M8 ECU To connect a PC to the ECU disconnect the Computer Interface Cable from the SDL and attach it to the PC 56 Appendices Appendix H CAN Wiring The CAN bus should consist of a twisted pair trunk with 100R 0 25Watt terminating resistors at each end of the trunk The preferred cable for the trunk is 100R Data Cable but twisted 22 Tefzel is usually OK The maximum length of the bus is 1
15. wire is difficult to strip unless the correct stripping tool is used Be careful not to nick the wires as this may result in wire failure or poor crimping Some sensor connectors may not be available with 22 terminals in which case doubling the wire over gives the equivalent of an 18 wire which is suitable for many of the common sensor terminals For full wire specifications see Appendix P Wire Specifications Connector The SDL uses a 37 pin Auto Sport connector see Appendix N Connector for full details To ensure that the connector is sealed plug unused holes with filler plugs A heat shrink boot may also be used if desired Crimping Ensure that the correct crimping tool is used for all contacts to ensure a reliable connection The correct mil spec crimping tool must be used for the SDL crimp pins See Appendix N Connector for details e Note that the Crimp Contacts are type 22D which is needed to set the crimp tool correctly MoTeC Installation 19 Power Wiring Power the SDL via a separate switch and a 5 Amp fuse The separate switch is recommended so that the computer can communicate with the SDL without needing to turn the rest of the vehicle power on Ground Wiring Ground the SDL to a good ground The ground should have a direct connection to the vehicle battery USB Wiring See Appendix J USB Wiring for USB wiring details CAN Bus Wiring Refer to Appendix H CAN Wiring for details Sensor Wiring M
16. 0msec AV4 AV4 aa ee Internal SDL Temp AV6 Internal Battery Voltage Internal Ref 2 AD2 Internal Ref 2 AD3 a LAI Internal OV AD2 Internal OV AD3 Internal Abs Ref 4V5 Internal Ref AD2 Internal Ref 2 AD1 Internal Ref AD3 52 Appendices Appendix E Auxiliary Output Characteristics Output Type Open Collector Drives to ground with weak pullup 10k ohms to battery positive Control is by On Off condition only the Auxiliary outputs do not support variable frequency or duty cycle control Current 0 5 Amp max current limited amp thermal overload protected Output Clamp 50V Flyback Clamp No Clamp Diode to supply MoTeC Appendices 53 Appendix F CAN Bus Specification CAN Bus Data Rate 1Mbit sec Terminating impedance and data cable impedance 100 ohms dictated by the PC communications cable CAN cable Maximum length 16 m including the CAN Cable if present 54 Appendices Appendix G ECU to SDL Wiring RS232 The following details the methods for connecting the various MoTeC ECUs to the SDL via RS232 In all cases this is done using the serial data stream generated by the Telemetry function of each ECU In the case of the M800 M880 and M4e the SDL may be directly wired to the ECU because these ECUs use RS232 interface levels On the M48 M4 pre M4e and the M8 a Computer Interface Module CIM or a PCI cable is required to convert the signals to RS232 M800 M880 9
17. 6m 50ft CAN Devices such as MoTeC SDL BR2 etc may be connected to the trunk with up to 500mm 20in of twisted wire Note that the CAN Cable Connector is not normally used since the SDL uses USB for communications CAN Cable 100R Terminating These wires must be Twisted Connector Resistors at each pi e end of the CAN Bus Minimum one twist per 50mm 2in lt lt CAN Bus gt gt CAN Device CAN Device CAN Device eg BR2 eg M800 eg SDL MoTeC Appendices 57 Appendix J USB Wiring The USB connection should be made by wiring a USB cable to the SDL main connector as shown below The USB cable should have a type B socket so that a standard USB A to B cable can be used to connect between it and the PC MoTeC can provide a suitable cable these are not commonly available Note that the maximum length from ADL to the PC is 5m 16ft when using a normal USB cable This can be extended in steps of 5m 16ft up to a maximum of 25m 80ft by using Active USB extender cables or hubs Wiring Details It is recommended that the USB wires are reterminated to 22 Tefzel to avoid wire breakage USB B Type Socket USB VCC L10 Red USB DP 50mm 2in Max Must be USB certified cable Maximum length 5m 16ft including the cable to the PC Note When inserting the pins into the Autosport connector check that all the pins are latched correctly by pulling on each wire it is very easy fo
18. A switch can also be used to generate lap times although this is significantly less accurate than a lap beacon system For further details refer to the Lap Beacon manual Options Various options allow the SDL to be upgraded to perform additional functions specifically wide band lambda measurement and Pro Analysis The options can be enabled at any time by calling your MoTeC dealer purchasing the upgrade and then entering the upgrade password See Appendix B Options Summary for details Software The SDL comes with software packages for managing the SDL and analysing the logged data All software required is available on the CD provided or can be downloaded from the internet Go to www motec com au and follow the links to Software The software must be run on a laptop or desktop computer running Windows 98 2000 XP The following software programs are provided MoTeC Overview 15 SDL Sport Dash Manager MoTeC Sport Dash Manager is used for configuration testing retrieving the logged data and for general management of the SDL An overview of Sport Dash Manager is included later in this manual Sport Dash Manager communicates with the SDL via a USB cable See Appendix J USB Wiring for wiring details Interpreter Interpreter is used to analyse the logged data this is covered in a separate manual BR2Contig This program is used to configure the BR2 beacon receiver via a CAN connection BR2 configuration is c
19. Light 3 Conditional Shift Light Setting Switch on Outpu A drop down list is used to select from a number of items but only the selected item is shown until a new item needs to be selected Hold down the Alt key then press the underlined Letter of the text above the list L or navigate to the button using the Tab key then select the desired item using the Arrow keys Press the Enter key to close the list Tabs Analog Volt Analog Temp Lambda Switch Digital Speed Tabs are used to select the different tab pages of a screen To select the next tab hold down the Ctrl key then press the Tab key To select the previous tab hold down the Ctrl key and Shift keys then press the Tab key Tree View A Tree View is used to select items from a hierarchical list Up Arrow Move the cursor up selects the item above Down Arrow Move the cursor down selects the item below Right Arrow Expand Expandable branches indicated by a Left Arrow Collapse Collapsible branches indicated by a MoTeC Windows Keyboard Use 41 E Engine Sensors Jl Car Sensors Je Bike Sensors E Boat Sensors F Drag Racing JE Miscellaneous Sensors oi Je Ambient H E Beacon H E Compass Ers Device Temperatures 6 5 Driver E Electrics Battery Volts ben ch Alternator Current w Battery Current oom Bat Volts ECU Bat Walts SDL H 42 Appendices Appendices Appendix A General Specifications
20. MoTeC SDL User Manual Contents INTO CHO E 1 O O 2 Brel 2 AAA Sl i 5 DAT AAN tesco O O OU on 5 Other FUNCIONS a ret 7 Measurement Inputs ta ida 8 Auxiliary e re 12 ell freeen 13 CC ONS CUNO EE 13 La OS 14 A eh a ah ciel aac os Si eat a or edad aah 14 SOWA Errn aA EEEE EOE E AAAA ege 14 Updateable ln 15 JC e Vu E 17 WOU E 17 DIS AY er EE 18 NEIEN EE 18 Ext rnal BUTON S ss scatterer eae eee de eens is Gace cae cde ea a deer ee css 19 A E aa a a a aiei a 20 Baue serisine nenna arannana Apina Aa nee eraai aiaa EE 20 Connecting to a MoleC ECU EE 20 Sport Dash Manager Goftware kee 23 aiaee or EE 23 Computer Requirements orinal 23 Installing Sport Dash Manager ENEE EEN 24 Mouse amp Keyboard eege ees 24 MaS E E 24 TOGA oes ce E AAA TE 25 Cer e EE 25 Elite Io EE 26 Configuration FileS sont i da th char eh enue tae hoc tata ada da ie bone 26 Changing the Configuration messi iii 27 Versions and UpdatN girse maesan ennea aaant nia 28 EE eeh Oats Ui le RE A aE E E tea 29 Conditions OvervieW E 33 Checking Operation WEE 34 SENSO ZOTOUNG EE 35 Detalls Editor ET 35 Windows Keyboard US6 ccsccccessseeseseeeeeeeseneeessneeeees 37 El WEE 37 Closing a Window EE 37 Getting e a an aaa aaan nial Aanadnbesnrotgendeduden asan aa 37 Selecting an Item in a tele EE 38 Using the Selected D EE 38 ele En e 42 Appendix A General Specifications AANEREN 42 Appendix B Options Summary cccccoccncnocononaccnonononnnnnon
21. alog Temp Input 3 Analog Temp Input 4 RS232 Output RS232 Input CAN Lo CAN Hi Sensor 62 Appendices Appendix N Connector SDL Mating Connector 37 way Deutsch AS6 14 35SN Wire Wire to suit connector 22 Tefzel Mil Spec M22759 16 22 Crimp Tool Crimp Tool M22520 2 01 Positioner for Crimp Tool M22520 2 07 e Note that the Crimp Contacts are type 22D needed to set the crimp tool correctly Wire Stripping Tool The following tool is recommended Ideal Industries 45 2133 stripping tool with LB1195 wire stop Heatshrink Boots Straight Raychem 202K142 Hellerman 155 42 G Right Angle Raychem 222K142 Hellerman 1155 4 G MoTeC Appendices 63 Appendix P Wire Specifications M22759 16 Wire Ratings For Various Wire Gauges Insulation Material Tefzel Conductor Tin Plated Copper Voltage Rating 600 V Maximum Temperature 150 C Cross Max Current Resistance Resistance Sectional at 100 C ohm m ohm 1000 ft Area mm Ambient Wire Stripping Tool The following tool is recommended Ideal Industries 45 2133 stripping tool with LB1195 wire stop 64 Appendices Appendix Q Case Dimensions SDL Le Y D pl y 1 D f y 1 Y NOTE AE Nan ee El SE NTED 2 DIMENSIONS INDIC CTUAL PROD IZE ALLOW FO CLEANANCE WHEN HOUNIING MoTeC Notes 65 66 Notes MoTeC Notes 67 68 Notes
22. e Temp Engine Coolant Temp Pos 2 Engine Coolant Temp Pos 3 Engine Coolant Level Engine Coolant Flow Rate Engine Coolant Pres System Engine Coolant Pres PumpOut Engine Coolant Pres Pump In Head Temperature 1 Head Temperature 2 Head Temperature 3 D 2 3 To D t ttete eee ud Edit Cancel Help MoTeC Sport Dash Manager Software 33 Search Method This method lists all channels in alphabetical order and allows a channel to be found either by typing the first few letters of any word in the channel name or by scrolling through the list Note that the words may be typed out of order so that Engine Oil Temperature could be found by typing temp eng oil or oil teng or e ot Select Channel zl Category Search Search text leo Channels Alarm Engine Oil Temp Hi Engine Oil Temp Engine Oil Temp Cooler In Engine Oil Temp Cooler Out Max Engine Oil Temp Min Engine Oil Temp This method is most useful when selecting a channel from the available channels For example if Engine Temperature has been assigned to an input pin it can be easily located in the Search list since this list normally only contains 50 to 100 items Conditions Overview Conditions are used extensively throughout the software to define a true false condition based on comparing one or more channels to a value Conditions can be p
23. ect the appropriate test from the Online menu MoTeC Sport Dash Manager Software 35 Sensor Zeroing Some sensors require regular zeroing for example Steering Angle Suspension Position Ride Heights G Force Sensors Throttle Position Sport Dash Manager provides a screen to allow easy zeroing of all these sensors To zero the sensors select Online Zero Sensors from the main menu Details Editor The Details Editor allows details about the Event Venue amp Vehicle to be entered This data is attached to the logged data file for later reference Some of this data is also attached to the configuration to determine the operation of some functions for example the Fuel Tank Capacity is used to determine Fuel Remaining if used To change the details select File Edit Details from the main menu MoTeC Windows Keyboard Use 37 Windows Keyboard Use This section gives details on how to use the keyboard with Windows applications Main Menu sm MoTeC Sport Dash Manager Test x File Inputs Calculations Functions Online Tools Help The Main Menu can be accessed by holding down the Alt key then pressing the key corresponding to the underlined letter in the menu name followed by the underlined letter of the item in the drop down menu Eg Alt F N for File New Alternatively press and release the Alt key then select the desired menu item using the arrow keys then press enter to activate it Closing a Window
24. ed to the file Retrieving the Configuration from the SDL The configuration can be retrieved from the SDL if necessary by selecting Online Get Configuration from the Online menu However this is not normally necessary unless the original file is not available on the PC Backups Whenever a file is saved the previous contents of the file are saved in the Save Backups directory The total number of files is limited to 100 When a file is sent to the SDL the existing SDL data is retrieved and stored in the From Dash Backups directory this is in case the data in the SDL needs to be restored The total number of files is limited to 10 File Management The configuration files may be Renamed Deleted sent to a Memory stick etc by clicking the right mouse button on the desired file when the Open File screen is displayed Changing the Configuration Once an existing configuration file has been opened or a new one created the various parts of the configuration may be modified by choosing the appropriate items from the main menu The configuration setup items are accessed from the main menu items nputs Calculations and Functions Configuration Sequence The configuration is best setup in the following order 1 Inputs Input Pins amp Communications 28 Sport Dash Manager Software 2 Calculations Lap Time Fuel Prediction etc 3 Functions Logging Display Alarms Auxiliary Outputs etc This simplifies t
25. ely Channel Usage The SDL channel scheme allows complete flexibility in channel usage as any available channel can be used by any other function i e any channel can be logged displayed used in alarms used as an input to the user definable tables etc Channel Properties For each channel the following properties have been defined some of which may be modified by the user Note that it is only possible to modify channels that are already present in the configuration Properties that may be modified by the user e Name e Abbreviation e Units eg Celsius Fahrenheit etc Fixed Details e Measurement Type Temperature etc e Resolution eg 0 1 C for Engine Temperature e Suitable Logging rates MoTeC Sport Dash Manager Software 31 e Suitable Display filtering e Minimum and Max Range Predefining these properties makes the channels easy to use throughout the rest of the software for example knowing the measurement type allows the channels to be displayed in any units suitable for that type with automatic conversion between the units For example all temperature channels can be displayed in Celsius Fahrenheit or Kelvin Channel Names amp Abbreviations The channels names may be changed if necessary However name changes should be limited to name preferences rather than redefining the purpose of the channel except for the general purpose channels which may be renamed to suit the current use Channel Units
26. erformed using 2 comparisons Conditions are used to define features such as when to start logging or when to activate an alarm For example an Engine Oil Pressure alarm may read as Activate the alarm when Engine Oil Pressure lt 200 kPa for 1 second AND Engine RPM gt 1500 34 Sport Dash Manager Software RPM for 2 seconds Note that a second alarm could be defined which would cover the range from 500 to 1500 RPM and which might read as Engine Oil Pressure lt 50 kPa for 1 second AND Engine RPM gt 500 RPM for 5 seconds The following shows an example of an Engine Oil Pressure alarm condition hange Alarm f X Alarm Condition Activate Alarm if any of the following conditions apply Checking Operation Monitor Channels The currently active channels can be monitored to allow checking of the operation of all functions and measurements To monitor the active channels select Online Monitor Channels from the main menu Oscilloscope Screen Any channel may also be shown on an oscilloscope style screen by pressing the Utilities Oscilloscope button on the Monitor Channels screen Tests A number of tests are provided to check the operation of the SDL such as the Analogue Input and Auxiliary Output Tests The Auxiliary Output test is very useful for checking wiring and operation of shift lights for example The Analogue Input test is very useful when checking sensor wiring To run one of the tests sel
27. he setup procedure by ensuring that the required channels are available for the functions that use them e Note that channels cannot be used until they have been generated by an input calculation or function Versions and Updating Updating The software inside the SDL can be updated by the user at any time to take advantage of the latest features offered by MoleC To update the SDL software version select Online Upgrade Dash Version from the Sport Dash Manager main menu Matching Versions The version of software inside the SDL must match the version of Sport Dash Manager software on the PC If the versions do not match Sport Dash Manager will show a warning when it attempts to communicate with the SDL To check the version of Sport Dash Manager select Help About MoTeC Sport Dash Manager from the main menu To view the SDL firmware version power up the SDL the version is displayed on the bottom line of the display for 2 seconds Configuration File Version After the SDL version has been upgraded the configuration file in the SDL must also be updated to match the new version The display will show a warning until a new configuration has been sent to the SDL Note that there is an option to automatically upgrade the configuration file in the SDL when performing an upgrade This eliminates the necessity to manually upgrade the file and then sending it see Converting Older Version Files MoTeC Sport Dash Manager Softwa
28. iate amplifier Switch Inputs The 2 switch inputs are generally used for the external switches required to operate the SDL display They can also be connected to a brake switch or other switch These inputs have a 4700 ohm resistor connected internally from the input pin to the 5V sensor supply so that a switch can be simply connected between the input pin and 0 volts Specifications For full specifications see Appendix D Input Characteristics Digital Inputs The 2 digital inputs are identically to the switch inputs except that they include the following additional measurement methods e Frequency The frequency of the input signal is measured e Period The time between successive pulses is measured e Pulse width The low time of the pulse is measured e Count Counts the number of pulses 12 Overview Specifications For full specifications see Appendix D Input Characteristics Speed Inputs The 2 Speed Inputs are identical to the Digital Inputs except that they can also be configured to suit Variable Reluctance Magnetic sensors such as some wheel speed sensors Because the amplitude of the signal from these sensors varies with speed of rotation variable trigger levels are required which must vary with the frequency of the input signal The Speed Inputs can also be used with Hall Effect type wheel speed sensors e Note also that the Pulse Width measurement method measures the high time of the pulse rather than the
29. ic mode the pullup resistor is disengaged and the trigger levels can be varied depending on the input frequency Update Rate 100 times second Filter Time Constant 25usec Speed Input Measurement Methods Frequency Resolution 0 1 Hz Maximum Frequency 3200 Hz Falling Edge Triggered Period 1 usec Measures period between falling edges Resolution 1 usec Maximum 32 msec Period 100 usec Measures period between falling edges Resolution 100 usec Maximum 3 2 sec 50 Appendices Pulse Width 1 usec Measures pulse high time Resolution 1 usec Maximum 32 msec Pulse Width 100 usec Measures pulse high time Resolution 100 usec Maximum 3 2 sec Speed Input Modes HALL Mode Suitable for switch to OV Logic signal or open collector device eg Hall Switch Pullup Resistor 4700 ohms to 5V Voltage Range 0 to 15V Positive Trigger Threshold 3 0 V max Negative Threshold 2 8 V min Hysteresis 0 19 V Min MAGNETIC Mode Suitable for Two wire magnetic sensor Variable reluctance sensor Input Resistance 100k ohms to ground No Pullup Voltage Range 100V to 100V Programmable trigger levels Analog Input Sampling The following specifies the order in which the Analog input channels are sampled and the time between samples Inter channel period is 14usec except that for every 8 channels there is a 60usec gap MoTeC Appendices 51 Sampling alternates between Group1 and Group2 and is scheduled every 1 00
30. low time as measured by the Digital Inputs Specifications For full specifications see the Appendices Internal Sensors The SDL includes internal sensors for G force lateral G force Vertical battery voltage and internal temperature Expander Thermocouple Inputs An E888 expander may be connected to the SDL to read the 8 thermocouple inputs These are added and calibrated when the CAN comms template E8xx Rx EGT is selected as one of the 6 possible CAN devices Auxiliary Outputs The SDL has 4 Auxiliary Outputs which may be used to control various vehicle functions such as Gear Change Lights Warning Lights Thermatic Fan Gear Box Oil Pump etc The outputs are On Off only and do not support variable frequency or duty cycle control The Auxiliary Outputs switch to ground and can drive up to 0 5 Amps Devices that consume more than 0 5 Amps such as motors should be driven via a relay MoTeC Overview 13 Communications Overview The SDL has various communications ports which are used to communicate with other devices USB Communications Port The USB communications port is used to communicate with a PC See Appendix J USB Wiring for wiring details RS232 Communications Port The RS232 communications port can be connected to an ECU GPS or similar device CAN Communications Port The CAN Control Area Network communications port can be connected to other devices with a compatible CAN port The advantage of CAN
31. mation For detailed information on using the various software programs refer to the online help supplied with the program Other Manuals Separate Manuals are available for e MoTeC Lap Beacon BR2 e Interpreter Data Analysis Software Sensor Details Drawings are available for all MoTeC sensors and can be found on the MoTeC Resource CD included with the SDL or on the MoTeC website at www motec com au The drawings detail the mounting and wiring requirements for each sensor 2 Overview Overview Display The SDL display is a high contrast high temperature custom made LCD display The display contains a Bar Graph three Numeric Displays a Centre Numeric Display and a Bottom Alpha Numeric Display The 70 segment bar graph has a user definable range and is typically used as a tacho however it can be used to display any other value When used as a tacho it may be configured for up to 19 000 RPM A programmable shift point can be displayed MoTeC Overview 3 Numeric Displays 0 5 OTOPETFP OTOPETFP m LAP TIME MIN SPEED LAP TIME MAX SPEED 0 0 0 8 60 68 The three numeric displays Left Right and Top Right can be programmed to display any value Note that each of the three numeric displays has a different number of digits and are therefore suited to displaying different values For example the Top Right display can only show values up to a maximum of 199 and is therefore not suitable for di
32. n software will report the logging time taking these factors into account Logging Rates The logging Rate may be individually set for each value between 1 to 200 times per second Start and Stop Logging Conditions Two options are provided the default is to log data while the engine is running The condition is to start when Engine RPM gt 200 rpm for 2 seconds Logging will stop when Engine RPM lt 200 rpm for 20 seconds This requires that the Engine RPM channel is present in the configuration The alternative is to specify start and stop logging conditions to suit the application For example logging might start when the vehicle exceeds 50 MoTeC Overview 7 km h and stop when the engine RPM is below 500 RPM for 10 seconds Note that the Start Condition must be true and the Stop Condition must be false before logging will start Retrieving the Logged Data A laptop or desktop PC is used to unload the logged data from the SDL The logged data is then stored on the computer hard disk The logged data may be retrieved at very high speed approximately 2 5 seconds per Mbyte when using USB or 20sec Mbyte when using CAN After each unload the user has the option to clear the logging memory The unload may be interrupted part way through if necessary by disconnecting the computer The partial unload will contain the most recently logged data and will be stored on the computer hard disk In this case the SDL logging memory is not
33. oTeC can supply wiring details for all sensors External Buttons A number of external buttons are required for various functions of the SDL Typically these buttons are used for e Display Next Line e Alarm Acknowledge e Lap Number Reset e Fuel Used Reset can also be done by holding the alarm acknowledge button for 2 seconds These buttons are normally wired to the SDL Switch Input pins but may also be wired to the Digital or Analog Inputs if the Switch Inputs are occupied Note that it is possible to configure the ADL to use the Alarm Acknowledge button to reset the Lap Number and Fuel Remaining by holding it for a period of time This reduces the number of buttons required The buttons should be wired between an SDL input and SDL OV pins 20 Installation Note that if wired to an Analog Voltage input an external pull up resistor must be connected between the input pin and the 5V sensor supply External Lights All lights including the Shift Lights amp Warning Lights must be wired externally This allows a choice of lights and allows the lights to be placed in the optimum position The MoTeC Shift Light Module SLM can be used for this purpose otherwise LEDs or LED arrays can be used SLM The SLM includes 8 LEDs that can be programmed to any colour and can be used for both warning lights and multiple shift lights plus many other functions The SLM is connected to the SDL via the CAN bus so it does not occupy any
34. ononannnnnnno nono nnnnnnnnnnnnnnnnnnnns 43 Appendix C Sport Dash Manager Command Line ooocccnccccccccocooaccccncccnnnnncnnnnns 44 Appendix D Input Characters aaa 46 Appendix E Auxiliary Output Characteristics eeeeeeeeeeeeeeeeeerer renner n ennesserne 52 Appendix F CAN Bus SpecificatiON ooooooocccccoccnncccccccccnnnnananananoncnnnnnnnnnnnnnnnnnns 53 Appendix G ECU to SDL Wiring Dn 54 Appendix CAN WINN E 56 Appendix J USB VV ING ee eege 57 Appendix K Typical Wiring With DR 58 Appendix L Pin List by Din ere 59 Appendix M Pin List by Pin Number 61 Appendix Elle EE 62 Appendix P Wire Specifications ooooooccocononccccccccnnncnncccnnnnnnnnnnana no nnnnnncnnnnnnnnnnnnns 63 Appendix Q Case Dimensions AANEREN 64 Copyright Motec Pty Ltd 2008 The information in this document is subject to change without notice While every effort is taken to ensure correctness no responsibility will be taken for the consequences of any inaccuracies or omissions in this manual Version 1 1 21 October 2008 MoTeC Introduction 1 Introduction Thank you for purchasing a MoTeC SDL Dash Logger SDL The MoTeC SDL Dash Logger is a combined LCD dash unit and high performance data logger Note that a display only version of the SDL is also available This Manual Covers e Overview of the SDL capabilities e Installation e Overview of the MoTeC SDL and Sport Dash Manager software Software Infor
35. overed in the BR2 Manual Updateable Firmware The SDL control software firmware is field updatable so that new software features can be used as they become available MoTeC Installation 17 Installation Mounting Mounting Dimensions Refer to the product dimensions in the Appendices Attachment Use washers between the unit and the mounting panel to ensure that the unit is mounted only at the mounting points to avoid twisting the case The SDL has three threaded mounting posts Do not over tighten the mounting screws to avoid twisting the case Vibration isolation may be desirable if the vehicle vibrates severely Orientation For best contrast the display should be viewed at approximately 20 degrees above normal however the SDL will give good contrast between 0 and 40 degrees Display reflections should also be considered when determining the mounting angle Note that for accurate readings from the inbuilt vertical G sensor the SDL should be mounted as close to vertical as possible os 20 Connector Access Mount so that the connector may be easily accessed 18 Installation Display Care Take care when cleaning the display use a soft cloth to avoid scratching the display and avoid aggressive solvents Wiring Pin Connection Details The SDL pin connection list appears at the back of this manual Wire Use 22 Tefzel wire Mil Soec M22759 16 22 5 amps max at 100 C Note that the Tefzel
36. plo we ele Toolbar MoTeC Sport Dash Manager Test s E ll Sl File Inputs Calculations Functions Online Tools Help SHAva sero e OP ee e MoTeC The Tool Bar provides an alternative way of activating some of the commonly used items on the main menu To find out what each item does hold the mouse pointer over the button of interest until a hint appears On line Off line All changes to the SDL configuration are performed Off Line i e without the PC communicating with the SDL Once the configuration changes have been made and saved to a file they can be sent to the SDL which is an On line process i e the PC is communicating with the SDL Many other functions are also performed On line for example Get Logged Data Zero Sensors Monitor Active channels etc 26 Sport Dash Manager Software To consolidate the Online concept all on line activities are placed in the Online Menu item All other menu items perform Off Line activities Configuration The configuration of the SDL determines exactly how it operates The strength of the SDL lies in its flexibility of configuration All aspects of the SDL can be configured including which sensor is connected to which input the calibration of each sensor what to display and where to display it what to log and how fast to log it tacho range warning alarms multi stage shift lights etc etc Configuration Files The SDL configurations
37. r a pin not to latch correctly which will give an intermittent connection 58 Appendices Appendix K Typical Wiring with BR2 The wiring below shows typical wiring for BR2 on CAN plus USB for PC connection For more detail on the CAN Bus wiring refer to Appendix H CAN Wiring For more details on USB wiring refer to Appendix J USB Wiring USB B Type SEE Socket White Green Black See the USB Wiring Specification for more detail See the CAN Bus CAN Device Wiring Specification eg M800 for more detail ECU Any Other CAN Device MoTeC Appendices 59 Appendix L Pin List by Function Pin Name Function Battery Power 4 BAT Battery Negative 3 BAT Battery Positive aang Volt Inputs AV1 Analog Voltage Input 1 ie AV2 Analog Voltage Input 2 17 AV3 Analog Voltage Input 3 18 AV4 Analog Voltage Input 4 1 AV5 Analog Voltage Input 5 2 AV6 Analog Voltage Input 6 19 AV7 Analog Voltage Input 7 20 AV8 Analog Voltage Input 8 Stier Temp Inputs AT1 Analog Temp Input 1 S AT2 Analog Temp Input 2 31 AT3 Analog Temp Input 3 32 AT4 Analog Temp Input 4 Lambda Input 29 LA Lambda Input Negative 30 LA Lambda Input Positive Switch Inputs 11 SW1 Switch Input 1 12 SW2 Switch Input 2 Digital Inputs 27 DIG1 Digital Input 1 28 DIG2 Digital Input 2 Speed Inputs 23 SPD1 Speed Input 1 26 SPD2 Speed Input 2 60 Appendices Auxiliary Outputs 5 AUX1 Auxiliary Output 1 6 AUX2 Auxiliary Output 2 7 AUX3 Au
38. re 29 Channels Channels are used to convey information between the various systems of the SDL For example an input pin may feed a channel called Engine Temperature this channel may then be used by any other system such as the Display or Data Logging systems Channel Connection Example Sensors ECU Analog Speed RS232 Inputs Inputs Comms 1000 Logging Logging d MM Mm M4 Memor d 4 y d ES d RR LI Display LCD d B 4 AAR Ch System Display Pt CT TC CS Gear HEEE Detection g Auxiliary Warning Outputs Light Engine Temperature cS Ei O E E a st Wheel Speed Rear AS o _ LL O D Q SA O Fuel Pressure Oil Pressure Engine RPM Gear Channels 30 Sport Dash Manager Software Channel List MoTeC has defined an extensive list of channels All systems within the SDL that generate values must choose to feed into one of these channels General Purpose Channels Since the use of all channels can not be predetermined a number of general purpose channels have been included for occasions when a suitable predefined channel is not available These channels may be required when measuring an uncommon value or when a general purpose function needs to generate a special output channel for example a 3D table may generate an output channel to control a valve of some sort in which case a general purpose channel may be used and renamed appropriat
39. rom the Internet Go to the MoTeC web site at www motec com au and select Software Updates then Current Release Software Click on one of the SDL Sport Dash Manager link to start the down load and choose to save the file to a location where it can be easily located after downloading such as the desktop After downloading double click on the file to start the installation process Mouse amp Keyboard The Sport Dash Manager Software may be operated using the keyboard or a mouse On many Notebook PCs the pointing device mouse substitute is difficult to use and in many cases it is much easier and faster to use the keyboard For details on using the keyboard refer to the topic on Windows Keyboard Use later in this manual Main Menu am MoTeC Sport Dash Manager Test i 0 x Fie Inputs Calculations Functions Online Tools Help MoTeC Sport Dash Manager Software 25 The main menu is used to access all of the features of the Sport Dash Manager software Click the mouse on one of the menu items or press the Alt key together with the underlined letter for example press Alt F to select the File menu Unavailable Menu Items When Sport Dash Manager is started the items related to changing the configuration will be unavailable this is because a configuration file has not been selected Unavailable items appear grey as shown below e MoTeC Sport Dash Manager i 15 x File Inputs Functions Online Tools Help SAE menim
40. s Lambda Input Type Wide Band MoleC Measurement Range 0 75 to 1 50 Lambda or 0 to 1V Accuracy 1 5 up to 1 20 Lambda Update Rate 100 times second Switch Inputs Suitable for Switch to OV or Off On Voltage signal Pullup Resistor 4700 ohms to 5V Voltage Range 0 to 15V Positive Trigger Threshold 3 5 V max Negative Threshold 1 0 V min Hysteresis 0 5 V Min Measurement Methods Off On only 48 Appendices Filter Time Constant 22usec Digital Inputs Suitable for Switch to OV Logic signal amp open collector device eg Hall Switch Pullup Resistor 4700 ohms to 5V Voltage Range 0 to 15V Positive Trigger Threshold 3 5 V max Negative Threshold 1 0 V min Hysteresis 0 5 V Min Update Rate 100 times second Filter Time Constant 22usec Digital Input Measurement Methods Frequency Resolution 0 1 Hz Maximum Frequency 3200 Hz Rising Edge Triggered Period 1 usec Measures period between rising edges Resolution 1 usec Maximum 32 msec Period 100 usec Measures period between rising edges Resolution 100 usec Maximum 3 2 sec Pulse Width 1 usec Measures pulse low time Resolution 1 usec MoTeC Appendices Maximum 32 msec Pulse Width 100 usec Measures pulse low time Resolution 100 usec Maximum 3 2 sec Speed Inputs Can be used in two modes Hall or Magnetic In Hall mode a 4700 ohm pullup resistor is connected to 5V and the trigger levels are fixed 49 In Magnet
41. see the engine temperature in Fahrenheit rather Celsius This is independent of the units used for other purposes Decimal Places The number of decimal places can be reduced for display purposes for example the engine temperature is measured to 0 1 C but is better displayed with no decimal places This is normally done automatically MoTeC Overview 5 Alarms When an alarm is activated a message is shown on the bottom line of the display a warning light can also be activated which is recommended to draw the drivers attention to the display The message displayed can be defined and can also include the current sensor reading or the sensor reading when the alarm was triggered LAP TIME 5523 45 0 The alarms remain active until they are acknowledged either by a driver activated switch or automatically after a defined period of time The warning alarm limits are fully programmable and may include up to 2 comparisons to ensure that the alarms are only activated at the correct time For example an engine temperature alarm may activate at 95 C if the ground speed has been above 50 km h for 30 seconds The speed comparison avoids the alarm showing during a pit stop due to heat soak Additionally another comparison could be set at a higher temperature to cover all other situations Data Logging Data logging allows the sensor readings or any calculated value to be stored in the SDL for later analysis Logging Memory
42. splaying Lap Times but is suitable for displaying many other values such as Lap Number Fuel Remaining Engine Temperature etc The numeric displays can show any channel value plus an override value shown each time the value is updated This is useful for values that are updated periodically for example Lap Time The override values are shown for a programmable period of time for example a numeric display could normally show the Running Lap Time which is continuously updating then be overwritten by the Lap Time for 10 seconds each time the Lap Time is updated Enunciators for some of the common display values are provided above the numeric displays eg ET Engine Temperature OP Oil Pressure Centre Numeric Display 4 Overview The Centre Numeric display is incorporated to show the current gear but may be used for other purposes Bottom Display MM MMM D D D D D VN WI a Iw a Wa Wa The 13 digit alpha numeric display can display up to 10 lines of information that can be scrolled up or down using the external buttons Each of the 10 lines can display up to 3 channel values at a time Additionally the bottom display can show an override value similar to the numeric displays The bottom display will also show any active alarm messages which will override all other values until the alarm is cleared Display Formatting Units The display units can be changed to suit the driver for example the driver may prefer to
43. ta flow to the SDL will be interrupted while a computer is connected to the ECU and will not resume for up to 10 seconds after the computer has been unplugged During this period any value that comes from the ECU such as RPM or Engine Temperature will not be updated and will normally be displayed as zero On later versions of the ECU software the 10 second delay is reduced to 1 second Connection via CAN The SDL and ECU must be connected on the same CAN bus See Appendix H CAN Wiring for wiring details ECU Setup Set the CAN Data Set to a set supported by the SDL normally set 1 The CAN Address must also be set Normal value for SDL is 1520 This is a decimal value that corresponds to a hexadecimal value of Ox5FO in the SDL 22 Installation SDL Setup Setup for the SDL is done in the Inputs Communications setup screen Select a communications template that matches the ECU type and ECU set In the displayed channel list check those channels that you wish to receive in the SDL ECU Sensor Calibrations Metric Calibration of the sensors should be used in the ECU otherwise special scaling is required in the SDL communications setup MoTeC Sport Dash Manager Software 23 Sport Dash Manager Software Introduction The following is an overview of the main concepts of the Sport Dash Manager software More detailed information is available from the online help provided with Sport Dash Manager Online help is not
44. to a number that represents the physical value e g Temperature All inputs can be calibrated to suit the connected sensor The calibrations can be selected from a number of predefined calibrations provided by MoTeC or they can be entered by the user Analog Voltage Inputs The 8 Analog Voltage inputs are normally used to measure the signals from analog voltage type sensors i e sensors with variable voltage outputs such as e Rotary or linear potentiometers e Signal conditioned 3 wire pressure sensors e Thermocouple amplifiers e Accelerometers 10 Overview These inputs can also be used to measure two wire variable resistance sensors if an external pullup resistor is connected from the input to the 5V sensor supply Additionally on off switch signals may be connected which may also require an external pullup resistor Measurement Methods These inputs can be configured to use several measurement methods to suit the various types of sensors e Absolute Voltage The sensor voltage is independent of the sensor supply voltage e Ratiometric Voltage The sensor voltage is proportional to the 5V sensor supply voltage e Variable Resistance The sensor resistance can be entered directly e On Off The voltage for on and off can be defined Input Voltage Range The measurable input voltage range is 0 to 5 5V on inputs AV1 to 4 and is 0 to 15 Volts on all other AV inputs Specifications For full specifications see Appendi
45. x D Input Characteristics Analog Temp Inputs The 4 Analog Temp inputs are identical to the Analog Voltage inputs except that they contain a 1000 ohm resistor which is connected internally from the input pin to the 5V sensor supply This allows the Analog Temp inputs to be used with two wire variable resistance sensors such as e Two wire thermistor temperature sensors e Two wire variable resistance pressure sensors Some voltage output sensors can also be used if they can drive the 1000 ohm resistor without causing an error in their reading eg MoleC Thermocouple Amplifier Additionally on off switch signals may be connected Measurement Methods These inputs use the same measurement methods as the Analog Voltage Inputs MoTeC Overview 11 Input Voltage Range The measurable input voltage range is 0 to 15 Volts This allows selection from a wide range of sensors Specifications For full specifications see Appendix D Input Characteristics Wide Band Lambda Input The single high accuracy fully temperature compensated Wide Band Air Fuel Ratio measurement input can be used if the Lambda Option is enabled This input connects directly to a MoTeC 4 wire Wide Band Lambda Sensor and is accurate to 1 5 up to 1 2 Lambda under all load and temperature conditions Note that this is the Bosch LSM sensor and not the 5 wire Bosch LSU sensor Note that NTK Lambda sensors should be connected to an Analog Voltage input via the appropr
46. xiliary Output 3 8 AUX4 Auxiliary Output 8V Sensor 13 8V Sensor 8V 5V Analog Sensor 14 5V Sensor 5V Analog Volt amp Analog Temp OV Analog Sensor 37 OV Sensor OV Analog Volt amp Analog Temp CAN Interface 35 CAN LO CAN LO 36 CAN HI CAN HI USB 9 USB GND USB Ground Black Shield 10 USB VCC USB Power Red 24 USB DM USB Data Minus White 25 USB DP USB Data Plus Green RS232 33 TX RS232 Output 34 RX RS232 Input MoTeC Appendices 61 Appendix M Pin List by Pin Number Pin Name AV5 AV6 BAT BAT AUX1 AUX2 AUX3 AUX4 OO OO JO Om P Lob Function Analog Voltage Input 5 Analog Voltage Input 6 Battery Positive Battery Negative Auxiliary Output 1 Auxiliary Output 2 Auxiliary Output 3 Auxiliary Output 4 USB GND USB Ground Black Shield 10 USB VCC USB Power Red 11 SW1 12 SW2 13 8V 14 5V 15 AV1 16 AV2 17 AV3 18 AV4 19 AV7 20 AV8 21 AT1 22 AT2 23 SPD1 24 USB DM 25 USB DP 26 SPD2 27 DIG1 28 DIG2 29 LA1 30 LA1 31 AT3 32 AT4 33 TX 34 RX 35 CAN LO 36 CAN HI Switch Input 1 Switch Input 2 Sensor 8V Sensor 5V Analog Voltage Input 1 Analog Voltage Input 2 Analog Voltage Input 3 Analog Voltage Input 4 Analog Voltage Input 7 Analog Voltage Input 8 Analog Temp Input 1 Analog Temp Input 2 Speed Input 1 USB Data Minus White USB Data Plus Green Speed Input 2 Digital Input 1 Digital Input 2 Lambda Input Negative Lambda Input Positive An

MoTeC SDL User Manual

Contents

Download Pdf Manuals

Related Search

Related Contents