MoTeC ADL / EDL User's Manual
Contents
1. MIN SPEED MAX SPEED di 278 The practice display is used to display basic information plus information to help the driver improve lap times eg Lap Time Lap Gain Loss Maximum Straight Speed Minimum Corner Speed or Corner Exit Speed The bottom display may be used to display additional information as needed 6 Overview Race LAP TIME The race display is normally used to display minimal information eg RPM Lap Time Fuel Remaining or Laps Remaining The bottom display may be used to display additional information as needed Display Formatting Units The display units can be changed to suit the driver for example the driver may prefer to 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 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 MoTeC Overview 7 3 LAP TIME n 24 5623 ENGTEMP You The alarms remain active until the2. and Telemetry Baud Rate should be selected to suit an RS232 communications template supported by the ADL ADL Setup Setup for the ADL is done in the Inputs Communications setup screen on the RS232 tab 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 ADL Interruption of the Data Note that the data flow to the ADL 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 latter versions of the ECU software the 10 second delay is reduced to 1 second Connection via CAN The ADL and ECU must be connected on the same CAN bus See Appendix G CAN Wiring Multiple Device for wiring details ECU Setup Set the CAN Data Set to a set supported by the ADL normally set 1 The CAN Address must also be set Normal value for ADL is 1520 This is a decimal value that corresponds to a hexadecimal value of 0x5F0 in the ADL 28 Installation ADL Setup Setup for the ADL is done in the Inputs Communications setup screen on an unused CAN tab Select a communications template that matches the ECU type and ECU set In the displayed channel list check those cha
3. ADL The configuration can be retrieved from the ADL 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 ADL the existing ADL data is retrieved and stored in the From Dash Backups directory this is in case the data in the ADL 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 Floppy Disk etc by clicking the right mouse button on the desired file when the Open File screen is displayed 34 Dash Manager Software 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 Setup Details For details on each of the Dash Manager setup screens click on the Help button that is provided on each screen Configuration Sequence The configuration is best setup in the following order 1 Inputs Input Pins amp Communications 2 Calculations Lap Time Fuel Prediction etc 3 Functions Log
4. 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 Maximum 32 msec Pulse Width 100 usec Measures pulse low time Resolution 100 usec 56 Appendices 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 In Magnetic mode the pullup resistor is disengaged and the trigger levels can be varied depending on the input frequency Note that the Hall and Magnetic modes must be activated in pairs ie inputs 1 amp 2 must have the same mode and level settings similarly inputs 3 amp 4 must have the same mode and level settings 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 Pulse Width 1 usec Measures pulse high time Resolution 1 usec MoTeC Appendices 57 Maxim
5. Suitable for 2 wire variable resistance sensors and some voltage output sensors 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 54 Appendices Measurement Methods Ratiometric Absolute Variable Resistance Off On Update Rate 500 times second 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 Lambda Inputs Type Wide Band MoTeC 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 Filter Time Constant 22usec Digital Inputs Suitable for Switch to OV Logic signal amp open collector device eg Hall Switch MoTeC Appendices 55 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
6. a channel to an input pin MoTeC Dash Manager Software 39 To expand a category click on the sign next to the category name Category Search Common Engine el PR Air Air Fuel Ratio Antidetonant E Cooling Engine 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 vi ri LL LL LL LL 40 Dash Manager Software 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 t eng or e o t Select Channel 2 x Category Search Search text fe ot Channels Alarm Engine Dil Temp Hi Engine Oil Temp Engine Dil Temp Cooler In Engine Dil Temp Cooler Out Max Engine Dil Temp Min Engine Dil Temp Edit Cancel Help 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 Con
7. 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 e Beacon For connection of a lap beacon Options Note that the number of inputs that are available depends on which options are enabled See Appendix B Options Summary for details Specifications For full specifications see Appendix D Input Characteristics Speed Inputs The 4 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 that Inputs 1 amp 2 use common trigger thresholds and a common pullup resistor switch as do Inputs 3 amp 4 therefore the same type of sensors need to be used on each pair of inputs e Note also that the Pulse Width measurement method measures the high time of the pulse rather than the low time as measured by the Digital Inputs 18 Overview Options Note that the number of inputs that are available depends o
8. between 100 and 1000 times per second and is the same for all logged items Trigger Conditions Burst logging is triggered when a defined condition becomes true Note that the normal Start and Stop Logging conditions do not affect burst logging Trigger Position Burst logging can capture data before and or after the burst start condition becomes true trigger event This is because the burst logging data is stored continuously overwriting the oldest data as necessary When the trigger event occurs a proportion of the old data before the trigger event is kept and the rest of the memory is filled with new data after the trigger event Events and Memory Up to 8 events can be captured for each of the two burst systems Each burst event occupies 64 kbytes of memory 1 16 of a Mbyte The number of events may be set by the user Note that this will affect the amount of memory available for normal logging Logging Time Since each burst event is fixed at 64 kbytes of memory the burst logging time is dependent on how many items are logged and how fast they are logged The burst logging time is reported by the configuration software For example 8 items logged at 500 times per second will last 8 2 seconds Retrieving the Logged Data A personal computer is used to unload the logged data from the ADL The logged data is then stored on the computer hard disk The logged data may be retrieved at very high speed approximately 20 s
9. kit is available which provides high quality data transmission and flexible data display e Note that when connected to both an ECU via RS232 and to a Telemetry device the baud rates of the two devices must be the same usually 9600 or 19200 baud 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 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 communicate at 1Mbit sec so any other devices connected on the CAN bus must also communicate at 1Mbit sec The CAN communications port is also used for all PC communications including configuration of the ADL and unloading the logged data ECU Connection The ADL can be connected to most Engine Management Systems ECUs This avoids duplication of sensors and allows the ADL to display and log many ECU parameters The ECU may send up to 40 values to the ADL 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 the
10. used 10 Overview Fastest Lap Logging Fastest Lap logging records data for the Fastest Lap since the data was last retrieved Normally this is used for items that require fast logging rates such as suspension position This allows the available memory is used more efficiently Note that Fastest Lap Logging requires that a Lap Beacon is connected Fastest Lap Logging is in addition to and works concurrently with Normal Logging Up to 50 values may be logged Logging Rates The logging Rate may be individually set for each value between 1 to 1000 times per second Maximum Lap Time Note that a maximum Lap Time must be entered which indicates to the ADL how much memory to reserve for fastest lap logging If there are no Lap Times less than this value then Fastest Lap data will not be available Memory Occupied The amount of memory occupied by Fastest Lap logging depends on how many items are logged how fast they are logged and the specified maximum Lap Time The effect on normal logging time is shown in the configuration software Logging Setup Files The logging list can be saved and loaded from a file This allows multiple logging setups to be used Burst Logging Burst logging allows data to be captured at high speed without wasting large amounts of memory Two independent burst logging systems are available Up to 20 values may be logged for each MoTeC Overview 11 Logging Rates The logging rate may be set
11. 2 Manual 22 Overview Field Updateable Control Software The ADL control software firmware is field updatable so that new software features can be used as they become available CAN Cable The CAN Cable allows the computer to communicate with the ADL at high speed The CAN Cable connects between the PC Printer Port Parallel Port and the CAR cable which is mounted in the vehicle and connects to the ADL Be sure that the CAN Cable is connected directly to the PC do not use an extension cable or switch box between the PC and the CAN Cable otherwise incorrect operation may result Note that the PC parallel port must be a bidirectional type The CAN Cable contains electronics which is powered via the cable from the ADL The CAN Cable can be extended by up to 12 meters Note that a special 100 ohm data cable is required MoTeC Installation 23 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 ADL has three threaded mounting posts while the EDL has four mounting holes Do not over tighten the mounting screws to avoid twisting the case Vibration isolation may be desirable if the vehicle vibrates severely ADL Orientation For best contrast the display should be viewed at approximately 20 degrees abov
12. A bY DN UN MoTec Bar Graph 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 fully programmable shift point can be displayed which can also be gear dependent MoTeC Overview 3 The operation of the bar graph can be different for each of the display modes Race Practice and Warmup this allows a lower range to be used in Warmup mode Numeric Displays 106 oroperre Val rue OTOPETFP LAP TIME MIN SPEED LAP TIME MAX SPEED HBB 6888 The three numeric displays Left Right and Top Right can be programmed to display any value which may be different for each of the display modes Race Practice and Warmup Note that each of the three numeric displays has a different number of digits and are therefore suited to displaying different values Fox example the Top Right display can only show values up to a maximum of 199 and is therefore not suitable for displaying Lap Times but is suitable for displaying many other values such as Lap Number of Fuel Remaining Engine Temperature etc The numeric displays can show any channel value plus up to two override values which are shown each time their 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 exam
13. Enabling ADL options e Upgrading the ADL software version e Changing event venue and vehicle details Computer Requirements The Personal Computer PC must be an IBM PC compatible running Windows 95 98 Me NT 2000 XP Recommended Minimum Specifications Pentium II 32Mb RAM Parallel Port for CAN Cable Printer Port Parallel Port The CAN Cable connects to the PC parallel port 30 Dash Manager Software The parallel port must be either an 8 bit bidirectional port or an ECP parallel port Single directional parallel ports will not work these are found on some older computers and some plug in cards Installing 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 lindex htm Click on the button marked Software Archive Select the version of 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 From the Internet Go to the MoTeC web site at www motec com au and select Software Updates Current Release Software Click on one of the Dash Manager links to start the down load and choose to save the file to a location where it can be easily located after download
14. MoTeC ADL EDL User s Manual Contents introduction See 1 Id 2 Dis Play EEE 2 Alarms co add cba 6 Data LOGGING 22 225 radar lod aa 7 Other Functions sic 12 Measurement Inputs tens eeeten tt tesrrttntrnestettttrnsteetttennnneeeeten ne 13 Auxiliary QUIputs ci iii 18 Communications Overview i 19 ECU Connection ita a ita 19 o mudder ndekkre eee aea deee iE 20 Eap BeacO tc E ET EET 20 Options NEEE ea II Roia 20 SOWA e a 21 Field Updateable Control Software i 22 CAN Cable used O Aleotti 22 installation saadan ANGLE 23 Mountingis ibrida cine isin nate iaia 23 Display OG EEE acide 24 VIA i St Se uren 24 MoleC Supplied Wiring Loom ss 25 Custom Wiring LOOM 55228288 eres ee een a mnt tnt 25 External ButtOnsS 0 0 2 seccei seis i ese kao ia 25 External LightScribe 26 TNEFMOCOUPIES viii eci GMs lastest 26 Connecting to a MdleC ECU ii 26 TeVe eed den 28 Dash Manager Software 29 Intr du tions auke TO 29 Computer Requirements i 29 Installing Dash Manager nn nn nr nnnnnnnnnnnnn 30 Mouse amp Keyboard 30 Main Menu svakt arnested detektor inizi 31 Button Bar Toolbar nenn ennn nn 31 Online ONS viss kadre A A eno 32 Configura acota eaten tein eA stride 32 Configuration Files username doi E 32 Changing the Configuration nono cnn rnnrn
15. Perform a Get Tell tale Values operation p 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 bathurst d30 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 bathurst d30 Note There must be a space between s and config name u Optional Perform an Upgrade Dash Version operation MoTeC Appendices 53 Appendix D Input Characteristics Analog Voltage Inputs Suitable for Potentiometers Voltage output sensors amp Variable resistance sensors with a pullup resistor Measurement Voltage Range 0 to 15 V e Note that voltages outside this range may affect the readings on other inputs Input Resistance 100k ohms to OV Resolution 3 74 mV Measurement Methods Ratiometric Absolute Variable Resistance Off On Update Rate Inputs 1 to 4 amp 11 to 14 1000 times second Update Rate Other inputs 500 times second 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
16. V20 Internal Ref AD3 MoTeC Appendices 59 Appendix E Auxiliary Output Characteristics Output Type Open Collector Drives to ground with weak pullup 10k ohms to battery positive Current 0 5 Amp max current limited amp thermal overload protected Output Clamp 50V Flyback Clamp No Clamp Diode to supply 60 Appendices 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 MoTeC Appendices 61 Appendix G CAN Wiring Multiple Device 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 224 Tefzel is usually OK The maximum length of the bus is 16m 50ft including the MoTeC CAN Cable PC to CAN Bus Communications Cable CAN Devices such as MoTeC ADL BR2 etc may be connected to the trunk with up to 500mm 20in of twisted wire The connector for the CAN Communications Cable may also be connected to the trunk with up to 500mm 20in of twisted wire and should be within 500mm of one end of the trunk If desired two CAN Cable connectors may be used so that the MoTeC CAN Cable may be connected to either side of the vehicle Both connectors must be within 500mm of each end of the trunk CAN Cable Connector 100R Termi
17. assword Note that the ADL does not require a Software Update Unit SUU to enable the options as required by the M4 pre M4e M48 amp M8 ECUs MoTeC Overview 21 See Appendix B Options Summary for details Software The ADL comes with software packages for managing the ADL analysing the logged data and monitoring the telemetry link The software must be run on an IBM compatible personal computer running Windows 95 98 Me NT 2000 XP The following software programs are provided Dash Manager Dash Manager is used for configuration testing retrieving the logged data and for general management of the ADL An overview of Dash Manager is included latter in this manual For detailed information use the Dash Manager help system Interpreter Interpreter is used to analyse the logged data Data Logging analysis is covered in a separate manual Telemetry Monitor The Telemetry Monitor software is used to monitor the optional Telemetry link and allows viewing of the telemetry data in various graphical formats such as Charts Bar Graphs and Dial Gauges It can also show the vehicles current track position on a track map and compare the current vehicle data to reference data Alarms can also be set to indicate when a particular value such as Engine Temperature exceeds a user programmable limit BR2Config This program is used to configure the BR2 beacon receiver via a CAN connection BR2 configuration is covered in the BR
18. ditions Overview Conditions are used extensively throughout the software to define a true false condition based on comparing one or more channels to a value Most conditions can perform up to 6 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 MoTeC Dash Manager Software 41 RPM for 2 seconds Note that this condition could also include a test for when the engine is greater than 500 RPM but set at a lower pressure which would cover the range from 500 to 1500 RPM which might read as Engine Oil Pressure lt 50 kPa for 1 second AND Engine RPM gt 500 RPM for 5 seconds In the case of alarms the condition can also contain an increment or decrement amount which may increase or decrease the test value by a certain amount each time the alarm is acknowledged The number of times this value is incremented can also be limited The following shows an example of an Engine Oil Pressure alarm condition Activate alarm if any of the following conditions apply 1 Engine Oil Pressure lt 50 0 kPa for 1 00 s and Engine RPM gt 500 rpm for 2 00 s 2 Engine Dil Pressure lt 200 0 kPa for 0 50 s and Engine RPM gt 1500 rpm for 1 00 s gt M 4 5 6 Checking Operation Monitor Channels The curren
19. e normal however the ADL will give good contrast between 0 and 40 degrees Display reflections should also be considered when determining the mounting angle gt 20 Lighting The ADL display has excellent visibility in a very wide range of lighting conditions however for night time use a front light module is required Connector Access Mount so that the connector may be easily accessed 24 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 ADL pin connection list appears at the back of this manual Wire Use 22 Tefzel wire Mil Spec M22759 16 22 5 amps max at 100 C Note that the Tefzel 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 N Wire Specifications Crimping Ensure that the correct crimping tool is used for all contacts to ensure a reliable connection Power Power the ADL via a separate switch and a 5 Amp fuse The separate switch is recommended so that the computer can communicate with the ADL without needing to turn the res
20. econds per Mbyte 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 12 Overview logged data and will be stored on the computer hard disk In this case the ADL logging memory is not 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 e Wheel Speed e Lap Beacon 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 ADL can perform many other functions and calculations including the following Functions e Shift Lights e Engine Log Calculations The ADL can calculate and display any of the following e Lap Time Lap Speed Running Lap Time Split Lap Times Lap Number Laps Remaining e Ground Speed Drive Speed Wheel Slip Lap Distance Trip Distance Odometer e Lap Time Gain Loss co
21. elect 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 MoTeC Windows Keyboard Use 47 Tree View E Engine Sensors a E Car Sensors E Bike Sensors E Boat Sensors E Miscellaneous Sensors Beacon Modem Electrics gt Battery Voltage Battery Voltage At Dash Battery Voltage At ECU Alternator Current Battery Current System Current gt 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 48 Appendices Appendices Appendix A General Specifications Physical Case Size ADL 180 5 x 91 5 x 18 0 mm 7 1 x 3 6 x 0 7 inches EDL 194 5 x 98 0 x 14 3 mm excluding connector 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 Batte
22. es 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 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 When selecting a channel from the complete list of channels it is usually easiest to use the category selection method for example when assigning
23. ew configuration based on one of a number of predefined templates If using a MoTeC supplied wiring kit there will be a template supplied to suit that kit In general this template should be ready to use other than vehicle dependent calibrations such as wheel speed Items such as the Alarms and Display setup should also be checked and modified if necessary to suit the application MoTeC Dash Manager Software 33 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 ADL 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 ADL it must first be opened To open a configuration file select File Open from the main menu and select the desired file 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 ADL The currently open configuration file can be sent to the ADL by selecting Online Send Configuration from the main menu When a configuration file is sent to the ADL any changes are automatically saved to the file Retrieving the Configuration from the
24. g RS232 The following details the methods for connecting the various MoTeC ECUs to the ADL 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 ADL may be directly wired to the ECU because these ECU s 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 ad 9 pin PC Connector if used 2 B17 40 3 818 31 M800 M880 5 B14 13 ECU Note that the data to the ADL 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 ADL via the CAN bus as an alternative to the serial connection M4e EN 9 Pin PC Connector 2 22 7 3 231 M4e ECU 5 5 Note that Older M4 ECUs require a different connection method Note that the data to the ADL will be interrupted while a PC is connected 64 Appendices M48 M4 pre M4e and M8 The M48 amp 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 PC Connector Refer to the CIM module drawing for full wiring details Note that the data to the ADL will be interrupted while a PC is connected U
25. ging Display Alarms Auxiliary Outputs etc This simplifies the 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 ADL can be updated by the user at any time to take advantage of the latest features offered by MoTeC To update the ADL software version select Online Update Version from the Dash Manager main menu Matching Versions The version of software inside the ADL must match the version of the Dash Manager software If the versions do not match Dash Manager will show a warning when it attempts to communicate with the ADL MoTeC Dash Manager Software 35 To check the version of Dash Manager select Help About MoTeC Dash Manager from the main menu Configuration File Version After the ADL version has been upgraded the configuration file in the ADL must also be updated to match the new version The display will show a warning until a new configuration has been sent to the ADL From Dash Manager version 3 0 onwards there is an option to automatically upgrade the configuration file in the ADL when performing an upgrade This eliminates the necessity to manually upgrade the file see Converting Older Version Files and then sending it Converting Older Version Configuration Files An older version configurat
26. ing such as the desktop After downloading double click on the file to start the installation process Mouse amp Keyboard The Dash Manager Software may be operated using the keyboard ora 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 latter in this manual MoTeC Dash Manager Software 31 Main Menu File Inputs Calculations Functions Online Options Help The main menu is used to access all of the features of the 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 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 MoTeC Dash Manager File Inputs Calculations Functions Online Options Help eins 5088 0 Connection lap Gam Loss Button Bar Toolbar File Inputs Calculations Functions Online Options Help i SHAave SES eF0Bs 0 a MoTeC The Button 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 unti
27. ion file can be converted to the latest version by selecting the appropriate version in the File of type entry box on the File Open screen When the file is opened the file is converted to the new version format and saved with the same file name but with the new version file extension The old file is not changed Open Look in 3 Config Ej ci sce SE From Dash Backups Save Backups My Old Config File File name E y Old Config File open Files of type Version 1 0 Config File Cancel 36 Dash Manager Software Channels Channels are used to convey information between the various systems of the ADL 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 Data Logging Auxiliary Warning Outputs Light Fuel Pressure Oil Pressure Wheel Speed Front Wheel Speed Rear Engine Temperature Alarm Warning Light Channels MoTeC Dash Manager Software 37 Channel List MoTeC has defined an extensive list of channels All systems within the ADL that generate values must choose to feed 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 predefi
28. it 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 ADL 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 into 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 20 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 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 MoTeC Overview 15 sensor supply Additionally on off switch signals may be connected which may also require an external pullup resistor Options Note that the nu
29. l a hint appears 32 Dash Manager Software On line Off line All changes to the ADL configuration are performed Off Line ie without the PC communicating with the ADL Once the configuration changes have been made and saved to a file they can be sent to the ADL which is an On line process ie the PC is communicating with the ADL Many other functions are also performed On line for example Get Logged Data Zero Sensors Monitor Active channels etc 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 ADL determines exactly how it operates The strength of the ADL lies in its flexibility of configuration All aspects of the ADL 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 ADL configurations are stored in files on the PC hard disk and can be sent to the ADL at any time When changing the configuration changes are only made to the file on the PC The file must be sent to the ADL 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 n
30. mber of inputs that are available depends on which options are enabled See Appendix B Options Summary for details 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 O to 15 Volts This allows selection from a wide range of sensors Specifications For full specifications see Appendix D Input Characteristics Analog Temp Inputs The 8 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 MoTeC Thermocouple Amplifier Additionally on off switch signals may be connected 16 Overview Options Note that the number of inputs that are available depends on which optio
31. me functions for example the Track Length is used to determine Lap Speed if used To change the details select File Edit Details from the main menu MoTeC Windows Keyboard Use 43 Windows Keyboard Use This section gives details on how to use the keyboard with Windows applications Main Menu MoTeC Dash Manager TEST olx File Inputs Calculations Functions Online Options 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 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 44 Windows Keyboard Use Selecting an Item in a Window Change Alarm Lx Conditions Message rAcknowledgement j Remove message When acknowledge button is pressed C Automatically after seconds Do not display this message again until fe seconds have elapsed e e mo __ _ _ _ _ _ _ ue Don
32. n which options are enabled See the Options Summary in the Appendices for details Specifications For full specifications see the Appendices Internal Sensors The ADL includes internal sensors for battery voltage and internal temperature Electrical Specifications See the Appendices for more detail on each type of input Auxiliary Outputs The ADL has 8 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 Items such as Thermatic Fans or Pump Control should be setup using the User Conditions or the general purpose Tables there is no specific setup item for these types of devices 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 They Auxiliary Outputs can be configured for switched or pulsed control Options Note that the number of outputs that are available depends on which options are enabled See Appendix B Options Summary for details Specifications For full specifications see Appendix E Auxiliary Output Characteristics MoTeC Overview 19 Communications Overview The ADL has two communications ports which are used to communicate with other devices RS232 Communications Port The RS232 communications port can be connected to an ECU or similar device and to a Radio Telemetry device A MoTeC telemetry
33. nalog Temp Input 3 37 AT4 Analog Temp Input 4 38 AT5 Analog Temp Input 5 39 AT6 Analog Temp Input 6 MoTeC Appendices 67 41 AT7 Analog Temp Input 7 42 AT8 Analog Temp Input 8 Lambda Inputs 29 LA1 Lambda Input 1 Positive 30 LA1 Lambda Input 1 Negative 31 LA2 Lambda Input 2 Positive 32 LA2 Lambda Input 2 Negative Switch Inputs 57 SW1 Switch Input 1 58 SW2 Switch Input 2 59 SW3 Switch Input 3 60 SW4 Switch Input 4 Digital Inputs 52 DIG1 Digital Input 1 53 DIG2 Digital Input 2 54 DIG3 Digital Input 3 55 DIG4 Digital Input 4 Speed Inputs 63 SPD1 Speed Input 1 64 SPD2 Speed Input 2 65 SPD3 Speed Input 3 66 SPD4 Speed Input 4 Auxiliary Outputs 9 AUX1 Auxiliary Output 1 10 AUX2 Auxiliary Output 2 11 AUX3 Auxiliary Output 3 12 AUX4 Auxiliary Output 4 13 AUX5 Auxiliary Output 5 14 AUX6 Auxiliary Output 6 15 AUX7 Auxiliary Output 7 68 Appendices 16 AUX8 Auxiliary Output 8 8V Sensor 62 8V Sensor 8V 5V Analog Sensor 18 5V Sensor 5V Analog Volt amp Analog Temp 28 5V Sensor 5V Analog Volt amp Analog Temp 44 5V Sensor 5V Analog Volt amp Analog Temp OV Analog Sensor 17 OV Sensor OV Analog Volt amp Analog Temp 27 OV Sensor OV Analog Volt amp Analog Temp 33 OV Sensor OV Analog Volt amp Analog Temp 40 OV Sensor OV Analog Volt amp Analog Temp 43 OV Sensor OV Analog Volt amp Analog Temp OV Digital Switch Speed 51 OV Sensor OV Digital Switch amp Speed 56 OV Sensor OV Digital Switch amp S
34. natin d Resistors at en These wires must be Twisted end ofthe CAN Bus Minimum one twist per 50mm 2in y F lt lt CAN Bus gt gt Max CAN HI cano y OOOO Te XX Te XO CAN Device eg BR2 Short CAN Bus If the CAN Bus is less than 2m 7ft long then a single termination resistor may be used The resistor should be placed at the opposite end of the CAN Bus to the CAN Cable connector o o Single Device See Appendix H CAN Wiring Single Device 62 Appendices Appendix H CAN Wiring Single Device When a single device is connected to the CAN bus then the wiring scheme shown below may be used to provide a connection point for the MoTeC CAN cable If the wiring length is less than 2m 7ft then the terminating resistor is recommended but not essential If other devices are connected to the CAN bus a special wiring scheme is required see Appendix G CAN Wiring Multiple Device 5 Pin Connector ADL Black OV 8V CAN LO A CAN LO B CAN HI B Note that CAN LO A is connected to CAN LO B inside the ADL Similarly CAN HI A is connected to CAN HI B The B connections are provided to simplify the wiring These wires must be Twisted Minimum one twist per 50mm 2in 100R Resistor Not essential if the wiring length is less than 2m 7ft 5 Pin Connector Type Deltron 716 0 0501 Non Latching Neutrik NC5FDL1 Latching MoTeC Appendices 63 Appendix J ECU to ADL Wirin
35. ned 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 appropriately Channel Usage The ADL 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 conditions 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 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 e Suitable Display filtering e Minimum and Max Range 38 Dash Manager Software 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 nam
36. ness no responsibility will be taken for the consequences of any inaccuracies or omissions in this manual 25 October 2004 MoTeC Introduction 1 Introduction Thank you for purchasing a MoTeC ADL Dash Logger and or EDL Enclosed Data Logger ADL The MoTeC ADL Dash Logger is a combined LCD dash unit and high performance data logger EDL The EDL is a model of the ADL that is manufactured without a display screen Aside from this it functions in the same way using the same software as the ADL In the remainder of this manual when reference is made to the ADL it also refers to the EDL except when referring to the display This Manual Covers e Overview of the ADL EDLs capabilities e Installation e Overview of the MoTeC Dash Manager software Software Information 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 The drawings detail all mounting and wiring requirements for each sensor 2 Overview Overview Display The ADL 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 V A NA M MMMM AA AA JAN UN AL UN I
37. nnels that you wish to receive in the ADL ECU Sensor Calibrations Metric Calibration of the sensors should be used in the ECU otherwise special scaling is required in the ADL communications setup Telemetry The ADL can transmit telemetry information via a radio link e Note that if RS232 ECU communications is used then the telemetry baud rate must be the same as the ECU communications baud rate normally 9600 or 19200 baud Wiring Wiring is dependent on the particular telemetry system please consult the wiring details supplied with the telemetry system ADL Setup Set the RS232 communications for Telemetry Only or ECU and Telemetry The telemetry channels should then be configured in the separate Telemetry Setup screen found under the Functions menu MoTeC Dash Manager Software 29 Dash Manager Software Introduction The following is an overview of the main concepts of the Dash Manager software More detailed information is available from the online help provided with Dash Manager Online help is accessed by clicking on the help buttons that appear on most Dash Manager screens and by selecting Help from the main menu Note that the EDL uses the same configuration software as the ADL and is accessed and operated in the same way The Dash Manager software is used for e Editing the configuration files e Sending configuration files to the ADL e Retrieving the logged data from the ADL e Testing the ADL e
38. nnnnnr cnn 34 Versions and Updating nn cnn cnn nana nnnncnncnnns 34 COM a ae 36 Conditions Overvie Wins rai 40 Checking Operation isos an dc 41 Sensor Zeroing tit A ne fe Le 42 Details Editor muse nn ae 42 Windows Keyboard Use 43 Main Menus sise A rai 43 Closing a Window elia iaia 43 Getting Helpe ee ma ann el en le ee 43 Selecting an Item in a WINdoW ii 44 Using the Selected Item aa 44 Appendices ici e keine Appendix A General Specifications Appendix B Options Summary ss Appendix C Dash Manager Command Line 51 Appendix D Input Characteristics eeeeeeeeereieeierrriresriresrinreerinnrerrennt 53 Appendix E Auxiliary Output Characteristics 59 Appendix F CAN Bus Specification neeese nn nn nenesrrrnnnnnssrrrnrrnrsneernnt 60 Appendix G CAN Wiring Multiple Device o oo i 61 Appendix H CAN Wiring Single Device 62 Appendix J ECU to ADL Wiring RS232 63 Appendix K Pin List by Function ss 66 Appendix L Pin List by Pin Number 70 Appendix M Connector 72 Appendix N Wire Specifications rr rancia rnnnnnnns 73 Appendix P Case Dimensions 74 O Copyright Motec Pty Ltd 1998 2003 The information in this document is subject to change without notice While every effort is taken to ensure correct
39. ns are enabled See Appendix B Options Summary for details Measurement Methods These inputs use the same measurement methods as the Analog Voltage Inputs 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 Inputs The two high accuracy fully temperature compensated Wide Band Air Fuel Ratio measurement inputs can be used if the Lambda Option is enabled These inputs connect directly to a MoTeC 4 wire Wide Band Lambda Sensor and are 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 Note that NTK Lambda sensors should be connected to an Analog Voltage input via the appropriate amplifier Switch Inputs The 4 switch inputs are generally used for the external switches required to operate the ADL 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 Options All four inputs are available irrespective of which options are enabled MoTeC Overview 17 Specifications For full specifications see Appendix D Input Characteristics Digital Inputs The 4 digital inputs
40. ntinuously displays how far behind or ahead the vehicle is compared to a reference lap e Current Gear MoTeC Overview 13 e Minimum Corner Speed Maximum Straight Speed and other Min Max values e Fuel Used Fuel Usage Fuel Remaining Laps Remaining Fuel Used per Lap General Purpose Calculations The ADL also provides a number of general purpose calculations including e 2D and 3D Lookup Tables e User Defined Conditions e General Purpose Timers e Mathematics The user defined conditions or tables can be used to activate items such as a Thermatic Fan or Gearbox Oil Pump Measurement Inputs The ADL measurement inputs can be connected to a wide variety of sensors This allows the ADL to measure vehicle parameters such as Suspension Movement Wheels Speeds Steering Angle Engine Temperature etc Input Types The ADL has a number of different input types which are designed to suit the different types of sensors The following inputs are available e 20 Voltage Inputs e 8 Temperature Inputs e 2 Wide Band Air Fuel Ratio Inputs Lambda Inputs e 4 Switch Inputs e 4 Digital Inputs e 4 Wheel Speed 14 Overview Options The number of inputs that can be used depends on which options are enabled See the Options Summary in the Appendices for details Internal Sensors The ADL also includes internal sensors for Battery Voltage and ADL Internal Temperature Sensors Different types of sensors are available to su
41. options Hold down the Alt key then press the underlined Letter of the desired option F A or D or navigate to the Radio Buttons group using the Tab key then use the arrow keys to select the desired item Edit Message Text Hi Eng Temp 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 M 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 List Mode Light Duty Cycle Control Frequency Control Duty Cycle amp Frequency Control 46 Windows Keyboard Use A list is used to select from a number of options Hold down the Alt key then press the underlined Letter of the text above the list M or navigate to the button using the Tab key then select the desired item using the Arrow keys Drop down List Logging Rate 20 times sec v once sec twice sec 5 times sec 10 times sec 20 times sec 100 times sec 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 3 Practice Warmup Tabs are used to s
42. ot activate light Activate light e Flash light Alarm Status Channel Select Clear n e 1 er J 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 The method of using the selected item or control depends on what type of control it is The common controls are detailed below Button Select Buttons are generally used to show another screen or perform a particular function MoTeC Windows Keyboard Use 45 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 IV Flash Message A check box is used to tick on or off a particular option Hold down the Alt key then press the underlined Letter F or navigate to the Check Box using the Tab key then press the Space Bar Radio Buttons Warning Ligh Flash Light C Acivate Light Do Not Activate Ligl Radio buttons are used to select an item from a group of
43. peed 61 OV Sensor OV Digital Switch amp Speed CAN Interface 71 OV OV CAN 72 8V 8V CAN 73 CANLA CAN LOA Note that 73 is internally connected to 75 74 CANHA CAN HI A Note that 74 is internally connected to 76 75 CANLB CANLOB 76 CANHB CANHIB RS232 67 TELEM RS232 Telemetry Output 78 TX RS232 Output 79 RX RS232 Input MoTeC Spare 68 77 Spare Spare Spare Spare Spare Spare Spare Spare Appendices 69 70 Appendices Appendix L Pin List by Pin Number Pin Name Function 1 AV15 Analog Voltage Input 15 2 AV16 Analog Voltage Input 16 3 AV17 Analog Voltage Input 17 4 AV18 Analog Voltage Input 18 5 AV19 Analog Voltage Input 19 6 Spare Spare 7 BAT Battery Negative 8 BAT Battery Positive 9 AUX1 Auxiliary Output 1 10 AUX2 Auxiliary Output 2 11 AUX3 Auxiliary Output 3 12 AUX4 Auxiliary Output 4 13 AUX5 Auxiliary Output 5 14 AUX6 Auxiliary Output 6 15 AUX7 Auxiliary Output 7 16 AUX8 Auxiliary Output 8 17 OV Sensor OV Analog Volt amp Analog Temp 18 5V Sensor 5V Analog Volt amp Analog Temp 19 AV7 Analog Voltage Input 7 20 AV8 Analog Voltage Input 8 21 AV9 Analog Voltage Input 9 22 AV10 Analog Voltage Input 10 23 AV11 Analog Voltage Input 11 24 AV12 Analog Voltage Input 12 25 AV13 Analog Voltage Input 13 26 AV14 Analog Voltage Input 14 27 OV Sensor OV Analog Volt amp Analog Temp 28 5V Sensor 5V Analog Volt amp Analog Temp 29 LA1 Lambda Input 1 Positive 30 LA1 Lambda In
44. pendices for details 8 Overview Power The ADL power can be turned off at any time without losing the logged data The ADL uses FLASH memory which does not require an internal battery to keep it alive Logging Rate The ADL can store any value at up to 1000 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 Update Rate Not all values are updated 1000 times per second and logging them faster than their update rate will simply waste memory The update rates for all input types are listed below times per second Analog Voltage Inputs 1 to 4 amp 11 to 14 1000 Digital Inputs amp Speed Inputs RS232 amp CAN Communications Note that the RS232 amp CAN Communications update depends on how frequently the data is sent from the device Typically the update rate from an M4 M48 M8 or M800 ECU is about 20 times per second using RS232 and about 50 time
45. ple 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 4 Overview Centre Numeric Display The Centre Numeric display is incorporated to show the current gear but may be used for other purposes Bottom Display Mmm M NM MW M UN UN UN NN LAN EN EN IN UN EN EN The 13 digit alpha numeric display can display up to 20 lines of information that can be scrolled up or down using the external buttons Each of the 20 lines can display up to 3 channel values at a time The values shown may be different for each of the three display modes Additionally the bottom display can show up to four override values 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 Modes The display has three main modes of operation Race Practice and Warm Up Overview The warm up display is used to display important engine sensor readings during engine warm up eg RPM Battery Voltage Engine Temperature Oil Pressure Oil Temperature amp Fuel Pressure The bottom display may be used display many other values that may need checking during warm up Practice
46. put 1 Negative 31 LA2 Lambda Input 2 Positive 32 LA2 Lambda Input 2 Negative 33 OV Sensor OV Analog Volt amp Analog Temp 34 AT1 Analog Temp Input 1 35 AT2 Analog Temp Input 2 36 AT3 Analog Temp Input 3 37 AT4 Analog Temp Input 4 38 AT5 Analog Temp Input 5 39 AT6 Analog Temp Input 6 40 OV Sensor OV Analog Volt amp Analog Temp 41 AT7 Analog Temp Input 7 42 AT8 Analog Temp Input 8 43 OV Sensor OV Analog Volt amp Analog Temp 44 5V Sensor 5V Analog Volt amp Analog Temp MoTeC 45 46 48 49 50 51 53 54 55 56 57 58 60 61 62 63 65 66 67 68 69 70 72 73 74 75 77 78 79 AV1 AV2 AV3 AV4 AV5 AV6 OV DIG1 DIG2 DIG3 DIG4 OV SW1 SW2 SW3 SW4 OV 8V SPD1 SPD2 SPD3 SPD4 TELEM Spare AV20 Spare OV 8V CANLA CANHA CANLB CANHB Spare TX RX Appendices 71 Analog Voltage Input 1 Analog Voltage Input 2 Analog Voltage Input 3 Analog Voltage Input 4 Analog Voltage Input 5 Analog Voltage Input 6 Sensor OV Digital Switch Speed Digital Input 1 Digital Input 2 Digital Input 3 Digital Input 4 Sensor OV Digital Switch Speed Switch Input 1 Switch Input 2 Switch Input 3 Switch Input 4 Sensor OV Digital Switch Speed Sensor 8V Speed Input 1 Speed Input 2 Speed Input 3 Speed Input 4 RS232 Telemetry Output Spare Analog Voltage Input 20 Spare OV CAN 8V CAN CAN Lo A Note that 73 is internally connected to 75 CAN Hi A Note that 74 is inte
47. puts are occupied The buttons should be wired between an ADL input and ADL OV pins 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 Usually LEDs or LED arrays are used The lights must be wired between one of the Auxiliary Outputs and the ADL Battery Positive The lights must not consume more than 0 5 Amps 6 watts at 12Volts unless activated via a relay Thermocouples Thermocouples must be wired to the ADL 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 ADL Connecting to a MoTeC ECU An ECU may be connected to the ADL which will make information in the ECU available to the ADL for display or logging or any other purpose MoTeC M400 M600 M800 M880 ECUs may be connected via CAN or via RS232 MoTeC Installation 27 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 ADL via an RS232 connection See Appendix J ECU to ADL Wiring RS232 for wiring details ECU Setup The ECU Telemetry Set
48. reter software including multiple overlays and user mathematics Lambda Option 2 Wide Band Lambda Air fuel ratio measurement inputs Telemetry Option Radio telemetry transmission Remote Logging Option Allows logging to an external bulk memory device with removable memory cards Enable Option Enables the ADL The ADL will not function until this option is enabled MoTeC Appendices 51 Appendix C Dash Manager Command Line Usage dash 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 bathurst d30 Note the path must included the file extension eg d30 Options Each of the following options can be given as 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 l Optional Perform a Get Logged Data operation 52 Appendices e Optional Perform a Get Engine Log operation t Optional
49. rnally connected to 76 CAN Lo B CAN Hi B Spare RS232 Output RS232 Input 72 Appendices Appendix M Connector ADL Mating Connector Deutsch AS6 20 35SN Wire Wire to suit connector 224 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 Racychem 202K153 Hellermann 156 42 G Right Angle Racychem 222K153 Hellermann 1156 4 G MoTeC Appendices 73 Appendix N 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 LB 1195 wire stop 74 Appendices Appendix P Case Dimensions ADL GLLANANCL WIILN MOUNIING MoTeC Appendices 75 EDL CLLARANCL WIILN MOUNIING 76 Notes MoTeC Notes 77 78 Notes MoTeC Notes 79
50. ry Voltage Dash Temperature MoTeC Appendices 49 Appendix B Options Summary The following options are available Standard I O The ADL comes standard with the following I O Input Output capabilities Analog Voltage Inputs AV1 to AV6 Analog Temperature Inputs AT1 to AT4 Switch Inputs Sw1 to Sw4 Digital Inputs Dig1 amp Dig2 Wheel Speed Inputs Spd1 amp Spd3 Auxiliary Outputs Aux1 to Aux4 ANNARAO 30 I O Option 10 Analog Voltage Inputs AV1 to AV10 Analog Temperature Inputs AT1 to AT4 Switch Inputs Sw1 to Sw4 Digital Inputs Dig1 amp Dig2 Wheel Speed Inputs Spd1 to Spd4 Auxiliary Outputs Aux1 to Aux4 0 to 1 Volt inputs using the LA1 amp LA2 pins AB NAAN 50 I O Option 20 Analog Voltage Inputs AV1 to AV20 8 Analog Temperature Inputs AT1 to AT8 Switch Inputs Sw1 to Sw4 Digital Inputs Dig1 amp Dig4 Wheel Speed Inputs Spd1 to Spd4 Auxiliary Outputs Aux1 to Aux8 0 to 1 Volt inputs using the LA1 amp LA2 pins NORRA 384k Memory Option 384k Bytes 0 384 Mbytes of logging memory 1M Memory Option 1 Mbyte of logging memory 50 Appendices 2M Memory Option 2 Mbyte of logging memory 4M Memory Option 4 Mbyte of logging memory plus Fastest Lap and Burst Logging 8M Memory Option 8 Mbyte of logging memory Note that this option is only available on units with serial number greater than 2000 Pro Analysis Option Advanced Analysis features in the Interp
51. s per second for the M800 using CAN MoTeC Overview Logging Time The maximum logging time is dependent on the logging memory size the number of items logged and the rate at which they are logged The configuration software will report the logging time taking all these factors into account Logging Types The ADL provides three ways of logging the data Normal Logging Fastest Lap Logging and Burst Logging Normal Logging Normal Logging continuously logs data to memory whenever the Start Condition is true and the Stop Condition is false Logging Rates The logging Rate may be individually set for each value between 1 to 1000 times per second Start and Stop Logging Conditions To avoid logging unnecessary data logging can be started and stopped by user definable conditions For example logging might start when the vehicle exceeds 50 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 Memory Filling Options When the logging memory is full the ADL may be configured to either stop logging or to overwrite the oldest data which ensures that the most recent data is always available This is referred to as cyclic logging For most applications it is recommended that cyclic logging is used Logging Setup Files The logging list can be saved and loaded from a file This allows multiple logging setups to be
52. se rates is unnecessary and will reduce the total logging time 20 Overview e Note that if the ADL is connected to a MofeC M800 ECU the M800 sensors should be calibrated in metric otherwise special scaling will be required Telemetry The ADL can transmit real time and or end of lap telemetry data This allows monitoring of the current vehicle condition position on the track lap times fuel remaining laps remaining etc The real time telemetry data is transmitted continuously The end of lap telemetry data is transmitted at a specified time after the lap beacon is detected e Note that if RS232 ECU communications is used then the telemetry baud rate must be the same as the ECU communications baud rate normally 9600 or 19200 baud e Note that the Telemetry option is required Lap Beacon A Lap Beacon can be connected to the ADL in order to record Lap Times for display and to provide lap reference information for the data logging analysis software The MoTeC Lap Beacon consists of a Transmitter which is mounted beside the track and a Receiver which is mounted in the vehicle Multiple beacon transmitters may also be used to generate split times For further details refer to the Lap Beacon manual Options Various options allow the ADL to be configured as a simple stand alone dash or to be upgraded to a sophisticated data logging display and control system The options can be enabled at any time by entering a p
53. sing a PCI Cable Direct Connection PCI Cable i M4 M48 M8 PC Interface Cable ECU To connect a PC to the ECU disconnect the Computer Interface Cable from the ADL and attach it to the PC MoTeC Appendices 65 Using a PCI Cable Parallel Connection This method allows the PC to be connected without disconnecting the Computer Interface Cable from the ADL Adaptor PC Interface Cable M4 or M8 ECU i PCI Cable Adaptor Details D9 Female 1 to 1 cable 2 D9 Male D9 Female Note that the data to the ADL will be interrupted while a PC is connected 66 Appendices Appendix K Pin List by Function Pin Name Function Battery Power 7 BAT Battery Negative 8 BAT Battery Positive Analog Volt Inputs 45 AV1 Analog Voltage Input 1 46 AV2 Analog Voltage Input 2 47 AV3 Analog Voltage Input 3 48 AV4 Analog Voltage Input 4 49 AV5 Analog Voltage Input 5 50 AV6 Analog Voltage Input 6 19 AV7 Analog Voltage Input 7 20 AV8 Analog Voltage Input 8 21 AV9 Analog Voltage Input 9 22 AV10 Analog Voltage Input 10 23 AV11 Analog Voltage Input 11 24 AV12 Analog Voltage Input 12 25 AV13 Analog Voltage Input 13 26 AV14 Analog Voltage Input 14 1 AV15 Analog Voltage Input 15 2 AV16 Analog Voltage Input 16 3 AV17 Analog Voltage Input 17 4 AV18 Analog Voltage Input 18 5 AV19 Analog Voltage Input 19 69 AV20 Analog Voltage Input 20 Analog Temp Inputs 34 AT1 Analog Temp Input 1 35 AT2 Analog Temp Input 2 36 AT3 A
54. t of the vehicle power on Ground Ground the ADL to a good ground The ground should have a direct connection to the vehicle battery MoTeC Installation 25 Sensor Wiring MoTeC can supply wiring details for all sensors MoTeC Supplied Wiring Loom MoTeC can supply either partial or complete wiring looms to suit each application Custom Wiring Loom If creating a custom wiring loom the following important points should be observed Connector The ADL uses a 79 pin Auto Sport connector see Appendix M 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 Crimp Tool The correct mil spec crimping tool must be used for the ADL crimp pins See Appendix M Connector for details e Note that the Crimp Contacts are type 22D which is needed to set the crimp tool correctly CAN Bus and CAN Cable Wiring Refer to Appendix G CAN Wiring Multiple Device and or Appendix H CAN Wiring Single Device for details External Buttons A number of external buttons are required for various functions of the ADL Typically these buttons are used for e Display Mode 26 Installation e Display Next Line and optionally Previous Line e Alarm Acknowledge e Lap Number Reset e Fuel Remaining Reset These buttons are normally wired to the ADL Switch Input pins but may also be wired to the Digital or Analog Inputs if the Switch In
55. tly 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 Simulate The Simulate feature allows most input channels to be manually changed so that the ADL operation can be checked under abnormal conditions eg High Engine Temp This is extremely useful for checking that the ADL is working as expected To activate the Simulate screen select Online Simulate from the main menu 42 Dash Manager Software Tests A number of tests are provided to check the operation of the ADL such as the Display Test To run one of the tests select the appropriate test from the Online menu Sensor Zeroing Some sensors require regular zeroing for example Steering Angle Suspension Position Ride Heights G Force Sensors amp Throttle Position Dash Manager provides a screen to allow easy zeroing of all these sensors To zero the sensors select Online Zero Sensors form 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 latter reference Some of this data is also attached to the configuration to determine the operation of so
56. um 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 variable with channel value as follows Selected Hi Trigger Level Lo Trigger Level Hysteresis Level Volts max Volts min Volts min ee Le fon os oso fore fore 58 Appendices Analog Input Sampling The following specifies the order in which the Analog input channels are sampled and the time between samples Inter channel period 14usec except every 8 channels there is a 60usec gap Sampling alternates between Group1 and Group2 and is scheduled every 0 976563msec Group1 Group2 AV1 AV1 AV11 AV11 AV2 AV2 AV12 AV12 AV3 AV3 AV13 AV13 AV4 AV4 AV14 AV14 AV5 AT5 AV15 Internal ADL Temp AV6 AT6 AV16 Internal Battery Voltage AV7 AT7 AV 17 Internal Ref 2 AD2 AV8 AT8 AV 18 Internal Ref 2 AD3 AT1 LA1 AVI Internal OV AD2 AT2 LA2 AV10 Internal OV AD3 AT3 Internal Abs Ref 4V5 AV19 Internal Ref AD2 AT4 Internal Ref 2 AD1 A
57. y 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 6 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 The comparison values can be automatically incremented or decremented when an alarm occurs For example the engine temperature alarm may be set at 95 C with and increment of 5 C so that the second time the alarm activates it activates at 100 C A limit may be set on the number of times the comparison value is allowed to increment also it may return to its original value after a period of time in case the alarm condition was temporary The alarms can also be dependent on the current display mode Race Practice or Warmup Data Logging Data logging allows the sensor readings or any calculated value to be stored in the ADL for later analysis on a Personal Computer Logging Memory The ADL comes with 8 Mbytes of logging memory Various options determine how much of the memory can be used and whether Fastest Lap Logging and Burst Logging are enabled See the Options Summary in the Ap
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