Dokumentation - myIPE - IPETRONIK GmbH & Co. KG
Contents
1. Portreplikator M LOG Grund 11 gt f 8 4V 4 5A Um LoG p CAP GND 10A FF M POWER 2 5A MultiFuse J3 Modem Power 2 5A MultiFuse p GPS Power 0 3A MultiFuse 5V 0 5A LOG 5VO Power 0 3A MultiFuse 1 0 MultiFuse 5V 0 003A CAN2 PIC 0 3A MultiFuse CAN3 0 3A MultiFuse CAN4 0 1A MultiFuse UBOUT 4x 0 1A MultiFuse LED Gr n 0 1A MultiFuse J LED Gelb 0 1A MultiFuse gt LED Rot Cable reference 05 620 550 Phonejack 3 wire 3 5mm Ethernet 620 591 xxx RJ45 620 551 Phonejack 3 wire 2 5mm Micro WLAN Headphone 620 577 Sub D RJ11 Tuchel 620 553 vw Sub D Sub D Banana COM 1 2 amp 20576 e Modem 9 11 Option Modem GPS WLAN Antenna 4 620 500 620 503 xxx SIM CAN M CAN ABS 100 M CAN 2074 POWER REMOTE 600 546 Sub D 620 860 open 1 4 DIG IN OUT LED 1 3 620 578 Lemo angled 620 324 open M VIEW Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 106 123 IP Appendix PIN assignment 05 wej 2001 070 008 60 0 6 PSNVOUOEM 2 Dejeg bunuupiezsiuoisuv L SOMd2. DOUT 4 DOUT COM MICR REF MICR SIG HEADPHON GND MICR GND aL Headphon HEADPHON Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 104 123 10 2 Mechanical accessories 10 2 1 Module mounting Dovetail adapter Adapter plate for mounting to the right M LOG housing for connecting M devices without tools Fastening elements 2 fastening strips for mounting at the device bottom to screw M LOG to an even surface Snap in fastener 2 snap in holders 2 fastening strips for mounting at the device bottom to fix M LOG at an even plate without tools Snap in adapter Mounting plate to use a snap in fastener to fix M LOG to plate without tools Suction pad holder for M VIEW fleet M VIEW graph Suction pad holder with pump for fixing driver display on smooth surfaces e g at windshield Figures are subject to change i s Due to safety reasons the bottom of the display housing must rest on an underlay e g instrument panel Avoid a free mounting and do not use the suction pad holder alone for drive tests Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 105 123 Appendix IP TRON 11 11 1 Cable connection and Pin assignment 11 1 1 M LOG port replicators Port replicator PRO5 4x Sub D 9 PWR IN REM Lemo 1B 6 pin Internal circuits PRO5
3. nnn nnn 16 2 3 1 PMO ACH TET T T ur 16 4522 VW OWA COD TER EU m 16 3 Data logger M LOG S LOG FLEETIOg 17 92 tt M 17 SP MEE WW ETE 19 3 2 1 cR tT DT m 19 SP MEM MORET mm 19 22 3 Porntreplcators and Cables ooo 19 3 2 4 Device panel for changing the internal memory 22 3 2 5 External fuse for logger protection IPElog M S LOG 22 3 2 6 Additional short circuit protection for IPElog and 23 3 2 7 LED status display flashing nnn 23 3 2 8 Power down at excitation loss sss nennen nnns nnns 23 2 22 Mp 24 3 9 1 OTN c noa CNS OG EU T Um 24 3 3 2 Detecting the logger creating test configuration Ethernet 25 3 33 Add logger system creating test configuration USB 26 Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 2 123 3 3 4 Static and dynamic IP addresses 02 22 0000 00 27 3 3 5 Logger system with CAN nn 28 3 3 6 Access to data stored on the 29 3 3 7 Synchronizing t
4. din EUN EIER UNES UH OUR ER URP 81 824 Statistics ere IET oO OT UTI 83 8 2 5 Operating in mode terminal 85 8 2 6 Recording audio and video 85 8 2 7 UDS protocol Unified Diagnostic 400 86 93 Liceo aee uel 87 8 4 Remote data 2 88 8 4 1 Transferring data using GPRS and Internet to FTP server 88 8 4 2 Transferring data using Wireless LAN to netzwork server 89 REESE 90 NEVEN 90 9 1 1 UA 91 Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 4 123 9 1 2 Configuring M VIEW fleet 92 2 MEVEN O 95 9 2 1 E 96 9 2 2 X Configuring 96 ACCESSOS re E 101 10 1 Electrical ACCESSOS METTE m 101 COMIT ne a ee 101 Edene E 102 SGI COVO m E oe T E 103 10 1 4 Bus isclator SAM CAN ISO s 103 DENEN err 103 10 2 Mechanical 0
5. IPEmotion 3 03 Logger PlugIn TESTdrive 3 51 MEASURE Instrumentation Data Logger M S LOG FLEETlIog IPElog August 2013 Table of contents CPCI NUS e EE EE 2 1 Important and general Informiall D ciues iani enu 0 oo cuu cua eundo POR cS nRR VE cHnd ua 0 len au Iu nnmnnn nnmnnn 6 tr enlace TIS 6 1 1 1 Safety and Warning instructions 0 1 100000 6 1 1 2 Liability Warranty Copyright License 6 2 AGING Call MNO MM ANIC ists EE mmm 10 1 2 1 TANS Manual NOTET mee 10 Tez VE SIO TUER 10 1 2 3 6 10 1 2 4 New Te ANUS SC ANOS S 11 cas gee 12 Lob 12 1 2 7 Documentation 12 ERES IC eem 13 2 1 Data logger applications 13 2 1 1 Configuration Online measurement using 13 PR 13 29 Connecting devices Via 14 2 2 1 BSCS O CAN DUS aeree a 14 2 3 Ampacity and voltage
6. iun wey AB EH L S0Ud 1n0 8n 6 FNYO NI 11V8A uondoze H NV2 1 QN9 EMd 0 8NYO NI LLVBA uorndosc 2 2 QN9 ZNI1 GN9 8 NVO MINOM L3d LP 13 83813 q 90 1 2 2 5 6 LLVBA ZNIT 1 BNYO 1 13Q 85n 8 uu us 10d Gans 1S0H Wlva zasn s NYO 150 95 QN9 HMds ME 8 NVO p NYI 549 c310N38 98 109 01 91 owe St QN9 NI SMdz Ni HMdazZz NI HMdzi 1009 poy 109 9 91 1 T NYO W 68 H NYO N 78 GN9 SMd W 4 1 9 2 5 ONAS W E lt 06 10d 6 80 NVO W asyong VINS auusjuy NY 1M uondo NOHdaGV3H S 901 9 QN9 HO2IN 7 aN9 NIQ S GNO9 NOHdGV3H7 NIO 5SIS HOIN C 6 6 33H HOIN 71 ON9 SMd Sl LT NIG oc 16 04 g 90 ouis UMd SdO EL ZA 089020 uns odg qqnsaH Al breton LQSA VLNOG NIG 6 5197 1028 GN9 HMd 9 SLH LINO27z4 GN9 Hl13 8 SG LNOD 9 XH Hl3 fF 54 XH Hl3 HLQ LNO2 F X1 Hl3 c axi LWNO2 t Xl Hl3z zl GXBS LNOO C 0001095 ssie 04 80 asy
7. 0 30 6 101 03126 2uzg qiaB z ga1sg H LNY2s 0026 1 903124 ONO ZINYO ONG JNWo 9 HMdg 201 8 2 6 ONS NId s 7 H ZHvY2sF F MIOst Q NO 9NYv23 7 QNO LNYO HIgs TONS amp NIOsz 1 2 ung od 6 gans CINVO 72 NYO 9NVO LNV2 yas 1046 qansaH amp LOS VLOOQ NIO rT T 01 fo fo e e e gt gt gt gt gt gt tn 4d ta i 1 i E a 66 Foam ul M 4 lt 9 OND LHLS S XW ELHI3st X1 LH13 E XL LHL3 0E poy aBueso jod go owe 11 1 3 IPElog Appendix D1 950 5 lt vIvO casnat WLW c8snec HMad casrnzt Jod 81 owe ec asn 2 3 n n 3 ONS Wn ONS LNY2 IN 0E 109 g0 ouis NYDN 14201426 QNO NI uAd QNO NIQ p 19202996 QNO NI MAMd QNO NMd W 2 14201438 QNO NI MAd QNO 100 uMd 4 AS 85 6 zieg JUs t 3uzg tWlWO cesne 6 WLYO ceSiN F 4 HMd So1sl unJB 01
8. OA 44 6 2 1 E E E 44 OPII 44 629 otak and 45 624 Spik HIVE 45 6 2 5 Save trigger channel Raai aaia ia 46 EE 46 6 3 1 ON a NO OUD 47 WS SSS 48 3 ONS EU UU 49 EMO ERREUR 49 7 1 1 Mathematic functions and 49 LP 53 Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com of 123 7 1 3 nennen nennen SERENE 53 7 1 4 Calculation examples 54 2 58 72 Digitalinputs and 59 7 2 1 Dra m TR 59 2 UI 59 72 OBD 2 MCAS 60 5 6 6 61 7 4 1 ON via WakeOnCAN OFF via Ignition 15 2 61 7 4 2 ON via WakeOnCAN OFF via Switch off condition eeeeseeeseenn m 61 75 TOUT SIM aS via CAN
9. without Ignition line 15 5 0 Q 992 O mE 0 0 E C O e T 5 0E 2 L mn gt gg 12 gt Status SW Emergency switch off Communication Timeout 1 HVV Emergency switch off imactive HW Emergency switch off Power Management Follow up time inactive Follow up time SSS 1 Switch off condition true I Switch off condition Lj o LI WakeOnCAN without Ign 15 Switch on condition WakeOnCAN enabled Switch off condition configured HW Emergency switch off and Follow up time out of operation Timeout inactive Jumper Pin 3 6 and Pin 8 9 at respective CAN input to indicate bus traffic WakeOnCAN Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 43 123 6 2 Triggering The logger acquisition program offers 4 trigger conditions for every storage group to control the data acquisition The trigger conditions can be deduced from acquired signals as well as from calculated channels All data is written into the memory RAM If a storage condition is met the data is asynchronously written from the cache into the open measuring file on the flash card 6 2 1 Start trigger Start of data storage if trigger condition impulse is met Stop of storage with correct logger shut down
10. ve wa Vo aa KM E EAR EVEN ERE FUP EE da 105 10 2 1 Module 105 UT PADS d 106 11 1 Cable connection and Pin 106 11 1 1 M LOG port 106 1 1 2 us 109 11 1 3 lad oTo O 110 jig A 111 11 2 1 Overview Configuration amp 111 11 2 2 Flow chart of the measuring 112 Heo 0 21 EE Om mmm 113 11 3 1 Calculating memory 113 Tigre LACAN SIGN 114 11 4 Status 212 mm 117 11 4 1 Most important status 5 5 117 11 4 2 Warning and error messages after program 118 11 5 E 119 NEP TIR 120 Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 5 123 Important and general information P TRON 1 Important and general information 11 Important information Please follow these instructions before and during the use and application on any IPETRO
11. Deactivate NoValue and use Default Value Channel type Mull gt FullScale Input 2 Expert settings EJ The timeout setting is defined at IPEmotion Options gt Basic settings gt Expert mode gt Expert settings Edit protocol channel scaling If the timeout expires without any signal value the entry Ignore verbal tables NoValue resp the selected standard value ist output for Variable configuration display and data record A status message is written to mot c ae the log file Reference configuration Extended tabs If a M VIEWvga is used this message must be confirmed Du Additional warnings Logger Manual 03 51 Maximum size of acquisition data files 100 MB No value timeout 2 s Logging import OK Cancel IPETRONIK GmbH amp Co KG ipetronik com 53 123 7 1 4 Calculation examples Greater comparison gt Syntax gt Description Compares the current value of a channel or a calculation with a user defined constant or variable The result is 1 as long as the comparison is true otherwise the result is 0 for a false comparison Example 01 gt 2 Comparison with a constant 01 gt Channel02 Comparison with a variable Constant eee eee Ier 55 2 12 Signal Results Time Variable CN Signal Result Time Less comparison lt Syntax lt
12. Classification Online storage group with statistic data without time reference AO Audio Online VO Video Online J Job data Diagnostic data ST Min Max list TBQS T CAN LIN traffic acquisition during or after boot process MV Maneuver recording The consecutive BB number clearly assigns data within one data type Several storage groups for instance can be detected with real time data which are distinguished from each other by this number The consecutive CCCC number differentiates between single acquisitions Each acquisition is therefore clearly defined The DDD file extension defines the data format as follows DAT header file T64 DIAdem time channel with 64 bit resolution W8 DIAdem data with 8 bit unsigned BYTE W16 DIAdem data with 16 bit unsigned WORD W32 data with 32 bit unsigned WORD 116 DIAdem data with 16 bit signed INTEGER 132 data with 32 bit signed INTEGER R32 DIAdem data with 32 bit in floating point displaying REAL R64 DIAdem data with 64 bit in floating point displaying REAL WAV Audio file in WAV format AVI Video file in AVI format CSV Comma Separated Values Binary file with job result Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 119 123 Appendix IP TRON Recorded signals are divided into different files accordingly to data typet i e all 8 bit signals unsigned in a
13. gt Horizontal bipartition 75 to 25 96 Vertical tripartition Vertical bipartition Vertical bipartition 75 96 to 25 96 Dynamic Example 1 Display layout Vertical bipartition The screen is horizontally divided to 5096 each Both areas show an alphanumerical display t The scientific display of values e g 1 03 is used from 5 3 17 01 only for very great values Graph display settings 2 General Display 4 M VIEWgr ZEN 21 3 Display page 01 Display area B Display area Graphs Updating mode Autoscralling Visible columns 1 4 4 4 0 x axis area 30 Text color a a Fi Data processing 12 a ad eas QE Status 12 Line width 1 Type Displaying type Graphs Signal displaying in curves graphs Numerical display Numerical signal displaying Updating mode Scaling type of x axis 50 96 Scroll If the defined interval in x axis area is elapsed 50 of the window are moved to the left and the graphs move from the middle to the right If they reach the right end the 50 window is moved into the left area and so on Autoscrolling If the defined interval in x axis area is elapsed the current graph data continuously move from right to left Autoscaling If the defined interval in x axis area is elapsed the graph data are accu mulated i e scaling of the time axi
14. 62 7 6 Log output via 63 7 7 Send e mail with status information ccccccecccccccceeeeeeeeseseceeeeesseeeeeeeeeeeeseeeeseeeeeeeessseeaseseeesseaaaaaaeess 64 7 8 Output messages to CAN 02 2 000000 0 nenne 65 7 9 Event controlled 67 7 9 1 Possibilities for data 67 7 9 2 Cyclic data recording of continuous 68 7 9 3 Event controlled data recording of bus nnn 69 7 9 4 Setting up event controlled data recording Plugin IPETRONIK LOQG 70 7 9 5 Practical example Determination of the latency of two 73 8 Options license TOC E c 74 8 1 Hardware options eene nennen nnn nnn nnns nnns nnn 74 8 1 1 RENE eee 74 CANS CIN ot eea ME 74 c RR 74 82 75 8 2 1 Import signal description 1 75 9 2 2 Detection mode Cycle Tale nii 81 Bos aC
15. ID Trigger Logger_Manual_V03 51 View Data manager port Check Adjust B M THERMO 2 First CAN ID hex Last CAN ID hex IP TRONIK Select a CAN input CAN 02 Select Traffic recording from the main menu Add components or with the context menu and right mouse button Now the tree structure shows the new arm Traffic recording at the respective CAN input Select Filter and or ID Trigger from the main menu Add components or with the context menu and right mouse button to restrict the recording to the required data Reporting Scripting Info 0 0 Detect Initialize Display rg Analysis Access View Active es Unit Phys Min Phys Max Senso Sensor gt 02 Traffic trigger status 01 4 1 Inner SERE d a I CAM 02 Traffic trigger status 03 0 1 1 CAN 02 Traffic trigger status 04 La 0 1 0 1 16 CAN 02 Traffic trigger status 05 E 0 1 0 1 02 Traffic trigger status 06 L 0 1 0 1 1 4 General Format Scaling Display Limit value Active F Mame CAN 02 Traffic trigger status 01 amp 0 Description Traffic trigger status 0 Reference 4 4 Sampling rate 4 0 hex Description 7ff Admission filter for reducing the data volume Admission filter for reducing the data volume 7ff Admissio
16. 1 The Valid function sets the initial counter value to a defined value here 0 in case the current value is invalid Counter with counting condition Syntax Description Beispiel Tip Counter Constant F Signal Trigger IF Channel01 gt x Counter01 y Counter01 IF Channel01 gt x VALID Counter01 0 VALID Counter01 0 Counts continuously with the current sample rate as long as the current value of Channel01 is greater than x The counter value is increased by y with each sample as long as Channel01 fulfills the condition Otherwise the counter remains unchanged As son as the condition is fulfilled again the counter continues with the previous value The rise of the counter slope depends on the currently configured sampling rate and the counter step A measurement stop resets the counter to O counter01 IF Channel01 gt 5 Counter01 1 Counter01 Accumulates 1 with each sample as long as Channel01 is greater than 5 Stop counting and holding the latest value as soon as 101 lt is less than 5 Used with TESTdrive logger application this recursive formula will result in valid values as the initial value for variables is set automatically Used with IPEmotion Acquisition gt Calculations Formulas the respective formula has to be completed with the Valid function 36 10 20 30 40 50 60 Sampling time Logger Manual 03
17. Calculation Frequency output Limit value USB DOUT 04 ETH COM 1 7 Description Digital output 108 Reference DOUT 04 80002763 5 Audio Display sampling rate EE 1Hz in Logger processing Status Main window at selected tab Signals Em storage groups Messages Symbol Time j Source Message window 4 Messages Status FE Storing Output automatically detects all available hardware connections at starting If you want to reduce the required time select Options gt Plugins for deactivating those interfaces which are not used Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 34 123 Configuration with IPEmotion extract P TRON 5 1 2 Die Title Bar The title bar contains the quick access bar the software name as well as a tool bar with the following functions IPEmotion E Help Open the documentation IPEmotion pdf where you can find useful information for a safe and clean application of the software E Minimize Minimize the application window of IPEmotion and place it in the task bar of your desktop Maximize Make the application window visible on your desktop refit the prior size Close Close the application of IPEmotion 5 1 3 menu The or application menu contains basic fu
18. ChnType LIN 2 CAN 1 ChnType 1 Baudrate 500000 ChnMode 0 1 List of messages send receive Messages Name Length Bytes lt Manuell 1 Manuell 2 Manuell 3 Manuell 4 Manuell 5 Group 1 Group 2 Group 3 Group 4 Groupl 5 Groupa 1 2 2 Group2_ 3 Group2_4 Group2_5 Group3_1 Group3 2 Group3 3 Group3 4 Group3 5 Group4 1 Group4 2 Group4 3 Group4 4 Group4 5 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 0x0 8 Logger Manual 03 51 0x00 0x91 0x02 OxCA 0x00 0x80 0x80 0x00 0x91 0x02 OxCA 0x00 0 0 0x81 0x00 0x91 0x02 OxCA Ox3F 0x00 0x40 Ox8C 0x00 0x91 0x02 OxCA Ox3F 0x00 0xCO Ox8D 0x00 0x91 0x02 OxCA Ox3F 0x00 0x00 Ox8E 0x00 0x91 0x02 0xC5 0x00 0x80 0x80 0x00 0x91 0x02 OxC5 Ox3F 0x00 0 0 0x81 0x00 0x91 0x02 0 5 0x00 0x40 Ox8C 0x00 0x91 0x02 0 5 Ox3F 0x00 0 0 Ox8D 0x00 0x91 0x02 0xC5 Ox3F 0x00 0x00 Ox8E 0x00 0x91 0x02 OxC6 0x00 0x80 0x80 0x00 0x91 0x02 OxC6 Ox3F 0x00 0 0 0x81 0x00 0x91 0x02 OxC6 0x00 0x40 0x00 0x91 0x02 OxC6 Ox3F 0x00 0 0 Ox8D 0x00 0x91 0x02 0 6 Ox3F 0x00 0x00 Ox8E
19. DIN 02 ELA E Select the trigger mode from Continuous acquisition no trigger Start trigger otop trigger Start and Stop trigger Stop as inverted start see Triggering Data recorded before the trigger event Data recorded after the trigger event Value which starts the data storage of the respective group Value which stops the data storage of the respective group Triggering the physical value or the raw value of the numerical value calculated with the formula Define the triggering conditions as formula from the system signals and calculated signals You can optimize your data recording with a clever configuration of storage groups and triggering conditions to record signals at a high storage rate only if required This method reduces the data volume saves memory and facilitates the final analysis Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 48 123 IP TRONIK Standard functions 7 Standard functions 7 1 Calculations TESTdrive supports the online calculation of the signals acquired in the system The desired calculation is defined with the corresponding software dialog manually or with the formula editor IPEmotion Version 1 03 and Plugin IPETRONIK LOG gt V03 20 offer a shared formula editor i e the following calculation functions are available IPEmotion as well as in TESTdrive A Calculations which are based on each other must be run in the same cycle rate to get a corre
20. EWH cow GMLAN Audio Import from XML file Eb am Search in C Users Public Documents IPETRONIK PEmotion Import E Size Changed on Extension 85934 08 05 2013 dv File name IPEmotionDemo a3l File type ASAM MCD 2MC 21 C Show system files Select protocol gt Several protocols can be imported from the description file Please select the protocol to work with Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 78 123 Options license required IP TRON Import signal descriptions from 21 Signals in data source Select signal Properties of highlighted signal Front_right Drag a column header heye to areup by that column Project numby DE Name Selection Sampling rate Physicarange Description Project versio F C unit ca Control unit Voltage 1 iHz 0 996 mV Test voltage 1 emotion n Voltage_2 1 Hz OV 996 my Test voltage 2 Egk Voltage 3 10 9 999 V Test voltage 3 address _1 1 Hz Du Temp measuring value 1 ECU versior Temp_2 1Hz 60 C 1370 C Temp measuring value 2 Protocol CCP So Eea pape Temp measuring Protocol gt A __ 107 9 8 irn hue T 1 lHz Omys 177 5 m s jram measuring v
21. 3004 NYO2 ino an 8 NI LLV8A uondo 8 1no an a8 NI 11v8A 8 1 QN9 1n0 HMd 9 9NYO NI L1V8A Uondo g H 8NYO F QN9 8 ZNYO 1 2 2 2 1 9 2 2 GN9 LNO eMd F axi zWoo t Gxau cWoo c HMd Sd9 l 09 qjeb 104 90 ouis CINOO 1 9 1 19426 GNO9 Ni HMd GNO9 Ni HMd Ni HMdzc Ni HMd l 09 101 109 9 g ouis 31OW3M NI I9 0d 222222006 04 6 80 ouis NVO W AS BMd ZESN 0 ONS gsn 6 130 1851 8 1 9 1SOH Lvd zasn s 160 viva zasns r N9 1n0 HMd t 1 BMd Sd9 i 01 gj owe MIAN NOHdaY3H NS9 82INWN t lt 915 21 nei6 jod 90 1 suoudpea H oJXt QN9 i1nO SMd OXL LNOD e axa IWooz c HMd W3GONz l 09 2 6 go ouis BN H ZNIT H 8NY2O f M N NYO H NY2 4 QN9 1n0 SMd 9 ZNYVO NI 1LV8A 190 6 2 ONS LNIT ONS ZIENWO E 1 lt 11 1 1 2 1 uns 1096 0915 NVO NVO 1n0 8n 6 NVO NI L1VSA uondo g H FNY2 4 GN9 1nO HMd 9 8NYVO NI L1V8A uondosc QN9 ZNI3 QN9 8 FNYO 1 2 2 N LIVSA ZNI3 1 8NY2 1 u
22. Additional system supply via a T connection at a suitable position 2 3 2 Voltage drop Even if the limit value for the ampacity is not reached long lines in an extensive system can cause perturbations in the acquisition process This mainly applies to devices at the end of the system chain because the voltage of the last devices does not exceed the input threshold of 9 V due to a high voltage drop in the system We recommend one or several of the actions mentioned above The voltage drop can be calculated by using the following formula 2 x jom X Length cable m IW Upevices V For estimating the voltage drop a resistance of gt 50 mQ m for the M CAN cables and gt 35 mQ m for the SIM CAN cables can be used including the transition resistances of the plug contacts Systems which are in the limit range of the voltage drop should be controlled in individual cases To do so our support will be pleased to assist you As the power consumption of a device depends on the supply voltage it is useful to calculate the voltage drop from the chain end to the feeding point In this case a minimum voltage of 9 V is set to the last device and the required excitation is calculated The calculated value should be generously rounded upwards for guaranteeing a safe operation Another fact is the variable internal resistance of the input power supplies low excitation lower internal
23. Description Compares the current value of a channel or a calculation with a user defined constant or variable The result is 1 as long as the comparison is true otherwise the result is O for a false comparison Example Channel01 lt 2 Comparison with a constant Channel01 lt Channel02 Comparison with a variable Constant ese gt Soo eee Signal Result Time Signal Variable Result Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 54 123 Counter without reset Syntax Description Example Tip 01 x VALID Counter01 0 x Counts continuously with the current sample rate i e the counter value is increased by x with each sample The rise of the counter slope depends on the currently configured sampling rate and the counter step A measurement stop resets the counter to 0 Counter01 Counter01 1 Accumulates 1 with each sample 01 Counter01 10 Accumulates 10 with each sample Used with TESTdrive logger application this recursive formula will result in valid values as the initial value for variables is set automatically Used with IPEmotion Acquisition gt Calculations gt Formulas the respective formula has to be completed with the Valid function counter01 VALID Counter01 0
24. If not already existing M LOG creates an specific subdirectory and saves measurement data and the latest configuration to the USB stick The name of the subdirectory consists of the serial number of M LOG easurement data on M LOG M LOG automatically starts the measurement Remove USR stick application and reads the current configuration as soon as yellow LED is permanently off Gather and store measurement data as configured M LOG will switch off as soon as the remote Stop Measurement input becomes inactive USB stick insert Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 111 123 Appendix 11 2 2 Flow chart of the measuring process LEDs normal Operation Status No ZJ L gt WAKE onCAN line 15 q bus traffic Yes Stop measurement Close Zip files Stop measurement Close file Modem On Send data Logger Manual 03 51 LEDs emergency IPETRONIK GmbH amp Co KG IP TRONIK Comment Pulse duration ignition line 15 gt 20 ms When switching on via remote pulse the continuous remote signal is required within 60 s Otherwise the logger will be switched off by the power management With the VVAKEOnCAN function the remote signal line 15 is required within the configured timeout delay 105 7200 s Otherwise the logger will be switched off by the power manage ment In case of emergency before the ar
25. 1 Channel 1 257 0 12 Channel 2 258 0 23 Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 62 123 7 6 Log file output via Hyperterminal The logger status messages can be displayed online with a RS232 PC or notebook connection The MLOG ht file is copied into the following directory C Documents and Settings user Startmenu Programs Accessories Communikation HyperTerminal Prior to this a hyperterminal connection must be created ge Programs Accessories fum i Communications HyperTerminal LIT Sa W Microsoft Word Entertainment dd Network Connections A Documents i IPETRONIK System Tools f Network Setup Wizard o lu m A je Remote Assistance Paint E New Connection Wizard ae Settings 4 Remote Desktop Connection Search b E Wireless Network Setup Wizard 9 Help and Support 5 dE Run 79 gt Shut Down Connect Ta 1 S 4 06 Enter a name and choose an icon for the connection Enter details Far the phone number that you want to dial Hame M LOG Country region comen d Icar Area code Icon Phone number Connect using CORN The following components are required for the COMI Properties connection of M LOG and PC for PCs with serial interface 1 x USB to RS232 converter aE pet 115200
26. Description Define a command to activate the digital output Reference M LOG 4 CAN Sampling rate 10 Hz 1 Hz e Hz 5 20 Hz 50 Hz 100 General Format Scaling Display Calculation Frequency output Limit value Frequency output active Frequency output configuration Frequency 10 Hz With releases of the Plugin IPETRONIK LOG TESTdrive 2 V03 22 data acquisition using the OBD2 standard CAN bus supported The OBD II international standard details a list of 96 predefined signals and measurement parameters which makes it easy to acquire provided operating data by a data acquisition system This standard is mandatory for petrol engine cars since 2001 respective diesel engine cars since 2003 and trucks since 2005 File Project Signals Acquisition View Data manager Liton System Components Import Export Check Adjust Configuration V03 51 00 30750 RC Nae 2 V 4 8 80002367 20 2S Project settings CAND 12 IER tony Wu ILL 3M CAN O03 01 0 Extras DIN 4 4 Import We 4 T Export 97 58 0 amp 0 Use as default com cut Cir 4x f cow ol Ei Copy Audio Display 0 al Logger processing 12 el Status tl Clean 4 Copy to E Paste from file ti Properties Logger Manual V03 51 Ctrl 4c IPETRONIK GmbH amp KG IPETRONIK CAN t A
27. NoValue Calculation rule 80002367 DIN 01 OR DIN 027 Description Reference Source Operator Description 3 SSS DIN 02 Define external trigger e g DIN 02 800 End of bracket block DIN 03 Define external trigger e g DIN 03 800 3 DIN 800 Addition DIN 04 Define external trigger e g DIN 04 800 4 01N 800 Subtraction DOUT 01 Digital output DOUT 01 8 1 DOUT 8 Multiplication DOUT 02 Digital output DOUT 02 8 2 DOUT amp Potentiation DOUT 03 Digital output DOUT 03 8 3 DOUT S Division DOUT 04 Digital output DOUT 04 8 4JDOUT S8 MOD Modulo operator gt 0 Absolute value Y Define external trigger e g for a storage group Pool OK Cancel Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 58 123 7 2 Digital inputs and outputs 7 2 1 Digital inputs 356 A GX eR BAKROO IPEmotion Sa File Project Signals Acquisition View Data manager Analysis Reporting Scripting Info E m s T 1 Activate the Signals tab m B n gt 2 Select DIN in the system overview Eaa T 3 Activate the desired digital inputs Enter a name and a description in the Configuration Access General tab RC Active Unit PhysMi
28. Power down A defined follow up time extends the data acquisition for x seconds 92 9 tz er 5 8 6 0 ua q C Cn G 2 2 A ES Dz s cr pe 4 Module wait for trigger active trigger inactive Trigger Measure Acquire data and write continuously to the buffer memory Pre Trigaer Data Pre Trigger store 6 2 2 Stop trigger Begin of data storage with logger switch on Power up Stop of data storage if trigger condition impulse is met A defined follow up time extends the data acquisition for x seconds If no trigger event is set data is recorded until Remote OFF or end of the follow up time E E T 21 c o TW O5 3 9 05 9 qi O O 9 e pa gt m e as TES De au p wait for trigger trigger active trigger inactive 1 Trigger d 1 Measure 3s ER Acquire data and write continuously to the buffer memory i 1 ENT 1 i i Post Trigger Data l i he gt Store EET i 1 We recommend to use the function VALID x order to avoid irregular NoValues which may influence a correct triggering Example Start trigger VALID Channel01 gt 15 0 Storage as soon as Channel01 gt 15 Stop trigger VALID Channel01 gt 15 1 Storage as long a
29. The time stamp channel is only recorded if activated in storage group dialog Memory footprint of header file The memory footprint of the header file depends on the size of acquisition configuration channel count sampling rate different data formats and cannot be defined by a general formula The size of the header file is usually much smaller so that it can be neglected Exceptations are short acquisitions or acquisitions with many channels at low storage rate 1 Hz Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 113 123 Appendix IP TRON 11 3 2 Linear signal scaling The conversion of a raw value binary value e g CAN message into a physical value value with unit is effected with the scaling IPETRONIK offers the scaling calculator and supports linear scaling with the line equation as factor offset or 2 point scaling The scaling of a voltage or current signal Sensor output into a corresponding physical or percentage value is effected in the same way The following examples show the connections Mathematical basics for the linear equation y a a ah a I l l m 3 IE dx z dx e i l en ae y i 2 x1 X Point gradient form Two points form Calculation and explanation 1 The linear equation y m x b shows the mathematical connection 2 Calculate the m gradient within
30. integrated buzzer Button illuminated Triggering of data recording and or voice recording via digital input 1 Status LEDs LED Yellow Indicates the status of digital output 2 LED is on if output is active LED Red Indicates the status of digital output 3 LED is on if output is active LED Multicolor green Indicates the status of digital output 1 green light blue Indicates the satus of the yellow LED blue light red Indicates the completed boot process The excitation of the connected devices at M CAN or SIM CAN socket is switched on Buzzer Acoustically indicates the status of digital output 3 Buzzer ON if output is active specific functions of the digital inouts and outputs are defined in the measurement configuration see Standard functions calculations trigger Use of digital inputs and outputs Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 403 123 The button functionality as well as the LEDs buzzer functionality also depends on the N wiring PIN assignment If another cable than 620 607 xxx is used functionality can differ from the one described above Cable 620 607 xxx Frontseite Frontseite Tomi assignment cable 620 607 PWR Multi LED Rot Multi LEDsGr n LED Gelb Y a __ 5 MutiLED BLAU TASTER a DI O LED3 rot DIN GND
31. 1 x Null modem cable Data bits 8 1 x Gender Changer Parity None for PCs without serial interface RS 2 x USB to RS232 converter Stop bits 2 1 x Null modem cable 8 1 x Gender Changer d The components for PCs without serial interface are _ Bess pesas available as an optional package M LOG OPT 086 Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 63 123 7 7 Send e mail with status information If this function is activated and the logger has an internet connection LAN WiFi modem it sends a status e mail after acquisition stop with the following content serial number and number of the current acquisition in subject line attached log file attached measurement status file if activated attached STG file Min Max list if activated pata transfer configuration General Medium selection LAN Select the logger in system overview Activate the Data management tab Activate the Update connection File encoding parameters gt Configuration to change the settings for data transfer configuration Select Activate e mail delivery Activate data remate transfer Define the corresponding setting in the E Mail tab Emergency switch off after Password File encoding Time synchronisation via SMTP Activate e mail delivery Import Export Cancel FP Data transfer configuration General Medium selection LAN
32. 3rd linearization segment Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 57 123 7 1 5 Local calculation E oa m ld Fg B ue 47 3 X X u 08 IPEmotion mE Xo File Project Signals Acquisition View Data manager Analysis Reporting Soipting Info e o LT Detect Import Export Check Adjust Initialize Display MEAS Select Signals navigation tab 03 5100 3 Multiple selection Active Unit PhysMr 2 Select Local calculations Select Add component gt Calculation from the tab menu or the context menu right mouse button n Activate the calculation 3 Enter a name and a description in the WE General tab Enter the calculation in the Formula 0 b CAN 04 0 tab me DIN 4 4 use 0 Em General Format Scaling Display Formula Limit value Formula oS SEA cow 0 Audio 8 Display 0 al Logger processing 12 Status 11 k Storage groups Mail groups Traffic groups 7 Enter the calculation formula manually or use the Formula editor f x 8 Move signals and operators in the entry field by using Drag amp Drop f x 9 Confirm with OK 10 Enter the value range and the decimals in the Display tab 11 Define additional limit values and or a
33. 41 LOG Logarithm of basis 10 LOG Temp01 LOG 5 0 4771 LN Logarithm of basis e LN Temp01 LN 5 1 0986 Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 49 123 Standard functions 3 SIN 5 ASIN ACOS ATAN SINH COSH TANH Trigonometric functions Hyperbola functions Name Sine Cosine Tangent Arc sine Arc cosine Arc tangent Sine Hyperbolicus Cosine Hyperbolicus Tangent Hyperbolicus Comparative operations comparison of variable values IP TRONIK 3 99 rad 3 99 rad 3 99 rad 1 0 rad 1 0 rad 1 0 rad 1 99 rad 1 99 rad 1 99 rad Equal Temp01 Temp02 15 10 0 15 15 1 lt gt Unequal 01 lt gt Temp02 15 lt gt 10 1 15 lt gt 15 0 lt Less than Temp01 lt Temp02 10 lt 15 1 15 lt 15 0 gt Greater than Temp01 gt Temp02 15 gt 10 1 15 gt 16 0 lt lt Less than 01 lt Temp02 10 lt 15 1 equal 15 lt 15 1 20 lt 15 0 gt Greater than Temp01 gt Temp02 15 gt 10 1 equal 195525 15 1 15 gt 20 0 IF If function IF Temp01 gt Temp02 x y 1 0 01 15 1 Query to a specific status 02 10 If Occurrence gt action 1 otherwise action 2 01 10 0 Example IF Thermo_channel3 gt 30 1 0 02 15 If Temperatur
34. IPETRONIK the technical publications team strives to produce documentations of the highest quality and values your feedback as a reader and user If you have any comments or suggestions regarding our product manuals contact us under support ipetronik com When commenting on our products please include the following information Version number Name of the guide Page number or section title Brief description of the content e g inaccurate instructions grammatical errors or information that require clarification Any suggestions for a general documentation improvement Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 12 123 2 System basics 2 1 Data logger applications extract 2 1 1 Configuration Online measurement using Ethernet Data logger Calculation Storage M Modules CANpressure System configuration Online measurement ETH LOG2PC CAN 1 CAN2 CCP KWP XCP UDS Vehicle ECU GPRS UMTS 3G worldwide c Om Internet 4 Measuring Configuration gt data Description files Data logger 1 Calculation Storage CANdb 21 Measuring Aid plan Data logger 2 Calculation Storage Data logger n Calculation Storage rs FlexRay AUTOSAR CAN 1 CAN 2 CANX CCP KWP XCP UDS CAN 1 CAN 2 4 CCP KWP XCP UDS CAN 1 CAN 2 CAN 12 CCP KWP XCP UDS Vehicle ECU Vehicle EC
35. Name Enter the value range and the decimals 2 the Display tab Im Define a formula to control the output with File Project Signals Acquisition View Data manager Analysis Reporting Scripting Configuration Access 4 80002367 DOUT 02 Project settings DOUT 03 Calculation CAN 01 DOUT 04 Define the lower and upper limit value with CAN 02 Limit value CAN 03 04 DIN s General Format Scaling Display Calculation Frequency output Limit value USB ETH COM 1 DOUT 01 COM 2 Audio Display Reference Active Description Digital output on 9 e a m Logger processing Status p Storage groups ER Mail groups cmn LI e dr Sampling rate Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 59 123 Standard functions Sampling rate DOUT The logger s digital outputs DOUT support a definable sampling rate cycle rate of up to 100 Hz Frequency output DOUT If the frequency output is activated a square wave voltage is sent The signal frequency can be configured 7 3 OBD 2 measurement IP TRONIK General Format Scaling Display Calculation Frequency output Limit value Active Mame DOUT 01
36. a reboot and starts measuring operation with the new application Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 30 123 4 External connection 41 Grounding It is absolutely necessary to connect the grounding of the M LOG case bottom or S LOG case rear with a suitable ground pin within the overall system Without this grounding EMV disturbances and uncontrolled excitation interferences can restrict the measuring process 4 2 Remote connection Remote lt electron control e of the vehicle Power IN min 6 V 9 V max 55 V PWR Power IN lt The logger has internal buffer capacitors to avoid a data loss due to sudden voltage losses The regular shut down is executed via remote and not by switching off the excitation The activating via a remote impulse impulse length gt 20 ms is also supported But the continuous remote signal must be received within 60 s otherwise the logger is shut down by the watchdog Example Start of measuring system with opening the vehicle door The continuous remote signal is received at motor start and the system continues measuring If the continuous signal is not received no motor start the logger shuts down after 60 s Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 31 123 4 3 Digital input output connection LOG PWR switched logger excitation not stabilized The excitation is supplied as soon as the logger is a
37. and time of violation gt Number of previous violations defined lower limit value defined upper limit value Minimum signal value Maximum signal value Status information file name available memory duration date time Scroll through the single limit value windows with the arrow keys of the touch screen or the F1 F4 keys if several alarms apply After clearing the alarms the display changes into the measuring window If the limit violation still applies the respective signal is shown in red A change into the alarm window only takes place if a new limit violation applies Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 98 123 Acquisition start and stop see M VIEWfleet gt Configuring displaying modes Shift driver function see fleet gt Configuring displaying modes ON OFF The logger can manually be started with the ON OFF button at M VIEWgraph Press the key for approx 2 s to start the logger and the acquisition The display LED is on and signalizes operation An acoustic signal sounds during measuring mode Press this key again to stop acquisition and shut down the logger Please note that the terminals 30 and 31 of the logger are connected not terminal 15 Simulate function Keys Menu Up Down OK TESTdrive 3 22 offers the additional keys Menu Up Down OK which can be controlled with a trigger Activating a respective key can be simulated with a cor
38. e VO3 53 00 3 External progran Select Data processing in the system structure and select Statistic from the main menu Add components or with right mouse button gt context menu El Multiple selection 4 80002763 Select Statistic in the system structure and select Components gt S Project settings Channel from the main menu or with right mouse button gt context menu P CANDI to create channels 4 CANOS Define additional classification settings within the tabs General a 3 Settings and Trigger acum 5 En Reset behaviour Data is written into a new classification 4 Logger processing li file at changing the configuration or at 6 Status 11 starting acquisition Storage groups groups 0 Sampling rate Data storage rate of classification gt EB Traffic groups 0 Trigger Statistik General trigger defines start and stop 5 trigger value range 0 1 E z Classification Name any name for classification Mode selected classification method General Settings Trigger Trigger defines start and stop trigger of the active channel classification start and stop Mode Random sample classification From To Edge counting Level crossing counting Rainflow Time at level Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 84 123 Options license required IP TRON 8 2 5 Operating in FTP mode terminal ser
39. ipetronik com 52 123 Standard functions 7 1 2 Constants 9 Constants Constant Pl SYSTEMRATE SYSTEMTIME SAMPLERATE SAMPLETIME 7 1 3 NoValue control A NoValue alarm can be activated for every signal within the Format tab General Format Scaling Display Thermo Data type Type 16 Bit integer signed DefaultValue Value IP TRONIK Description Pi gt 3 141592654 TESTdrive internally works with a fix system rate This rate depends on the configuration Channel with highest sampling rate and can be used for calculations The system rate can be compared with the timer ticks of a PC clock and is set in Hz The system rate relates to the working frequency of the PC Notebook Frequency of the High Performance Counter Reciprocal value of the system rate 21 5 YSTEMRATE and is set in seconds Please note at using a system rate in the MHz range that the system time can only be correctly displayed if sufficient decimals have been defined and Automatic has been selected in Display gt Formatting Channel sample rate in Hz Channel acquisition intervall in 1 s Example Signal scaling 8 Bit integer signed Range 128 0 127 NoValue setting FullScale With a signal value of 128 the expression NoValue will be written to the data record Limit value With an activated check box the expression FullScale will be written to the T Task Nothing data record
40. menu The new entry External programs has been added to Data processing E Runtime library 2 Multiple selection Select External programs in the left Systems overview Select Add components gt External programs from the tab menu or from the context menu Chose additional settings in the tab Extended ipetronik com 65 123 Standard functions General Extended External library DatayChannel4ccess dim Configuration File Message cycle time 10 ms Build 16 amp 78t1Datalchannel dat Remove Remove External library IP TRONIK Extended Runtime library File location of the external application DLM Configuration file File location of the configuration DAT Message cycle time Ouput rate of the message repetition rate Example Offset adjust for IPETRONIK modules connected to the logger s CAN input The message output feature offers the possibility to broadcast an offset adjust command to IPETRONIK CAN modules with adjust function The sample file OffAddStart dat contains the adjust commands for task Manual and Group 1 4 The sample shows a manual adjust on CAN 01 with a baud rate of 500 kBit s executed with a time delay of 2 5 seconds from start measurement Brief description of the parameters see header of the sample Channel dat for detailed settings Hardware initialization lt Basic setting of CAN LIN input Init Channel CANO lt
41. message is not concerned with CAPs contrary to Power good message Can t initialize communication mediums Dev_conf xml is not included in Config i e no data transfer activated Shutdown in 55 min If data postprocessing zipping establishing data transferring data sending etc is not completed within 55 min Testdrive shuts down and data remains on logger Emergency shutdown in 60 min Logger is unconditionally shut down after 60 min Powermanagement of M LOG controls the device 11 4 2 Warning and error messages after program update Program options without license TESTdrive Version 3 17 includes a license software to check the use of logger TESTdrive options This requires sending new license keys to the logger After a TESTdrive program update potential warning messages can indicate locked options TESTdrive checks if used functions are really unlocked on the logger Following warning 15 written into log file if e g all inputs of a card with 4 CAN inputs is used but only 2 are unlocked 01 04 2009 14 11 45 W 1 Upper limit of licenced CAN interfaces reached 2 Please contact the sales team at 49 7221 9922 222 to assist you with warning and error messages as well as licensing temporarily at acquisition start Depending on the missing license acquisitions are limited e g possible calculations but no classification or disabled e g at missing license for interface U TESTarive V03 22 deact
42. signals from the p Signals tab 3 2 Select Add components from the tab menu or with the context menu right mouse button 3 Select Event signal to add it to 0 4 Ld 0 g General Format Scaling Display Extended Limit value 13 Triggering event Select 12 n Resetting event Select 1 y wy g h K y Ft F 1 MVIEW graphkeyLertF2 MVIEW graphkeyLertFs MVIEW graphkeyLertF4 Select events MVIEWgraphkeyRightF1 MVIEWgraphkeyRightFz Select the Event signal from the list MVIEWgraphkeyRightF3 Activate Extended tab MVIEWgraphkeyRightF4 Select Triggering event Select Resetting event status of the respective event signal anms remains applied from triggering until Limit violation n Limit vialationiOfF ShutDown side keys right left F1 to F4 at M VIEWgraph Buzzer is activated Buzzer is deactivated M VIEWgraph is switched on M VIEWgraph is switched off At least one limit violation applies No limit violation applies Remote signal logger off Logger still in follow up time IPETRONIK GmbH amp Co KG ipetronik com 100 123 10 Accessories 10 1 Electrical accessories 10 1 1 COMgate COMgate is an intelligent extension device for logger and allows remote transmission of measurement and configuration data M COMgate in mounting enclosure for M LOG CONMgate is available in 2 versions COMgate WLAN acc to WiFi 802
43. 0 m Active Unit Phys Min Phys Max Sensor Min Sensor Max Sampling rate Mame 2 pm Ii T gt Pressure Abs bar 654 Ewent cenitroller 4 80001358 21 TPS Volt 0000 S Project settings 24 1 4 m fM SIM 514005 CAN 02 CAN 03 CAN 04 DIN i General Format Scaling Display Limit value DOLT LISB ETH 0 Pressure Abs 1 COM 2 Audio Reference Active Description Display Maximum rate EUTDD Logger processing Status ici groups D s Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 10 123 In the storage group the storage rate has to be set From channel It should not be a fixed storage rate As result sampling rate is Event controlled and storage rate is Auto etbBESBb5bEDSXxen amp soeg Se File Project Signals Acquisition View Datamanager Analysis Reporting Scipting Info m BR 4 Tob System Components Import Export Check Adjust Detect Initialize Display Configuration Access View V03 51 00 30750 RC Channel Storage rate Index Active Unit Sampling rate Mame 21 gt Pressure Abs Event controled al E IPEmotionDemo Front left ALI C Event controlled SIM 51400504 Frant right vent controlled SIM 51401345 M SIM 50102467 CAN 02 CAN 03 CAN 04 DIN rox General Settings
44. 0 405 002 for PRO4 Requirements Data logger with LX800 gt Option Input 2x Ethernet with respective port replicator free Ethernet input gt IPEmotion LOG Plugln gt 03 19 Creation and configuration see ETH 01 02 port Advices gt The bus inputs of the extender do not support WakeOnCAN traffic acquisition Data is directly stored on the logger gt The maximum data rate is 100 Hz gt The configuration is extended by the additional file ecf Extender Configuration File Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 102 123 10 1 3 GPS receiver gt GPS mouse for satellite positioning Connection to the serial logger interface Ta 7 Predefined settings of NMEA protocol configuration software 10 1 4 Bus isolator SAM CAN ISO High ohm connection of hardware to vehicle CAN gt Electrical isolation between vehicle bus and measurement system gt Connection with short stub gt Version Hear only to avoid unintended in fluencing of vehicle CAN 5 150011 23 0 1 approval Vehicle Approval VCA for directly connecting with the CAN bus of public vehicles without restricting the type approval 10 1 5 iMIC gt compact multifunction device 1 57 1 44 0 98 in 40 36 5 25 mm Voice recording with audio input good voice quality gt illuminated trigger button gt 3status LEDs green yellow multicolor gt
45. 0x00 0x91 0x02 OxC7 Ox3F 0x00 0x80 0x80 0x00 0x91 0x02 OxC7 Ox3F 0x00 OxCO 0x81 0x00 0x91 0x02 OxC7 Ox3F 0x00 0x40 Ox8C 0x00 0x91 0x02 OxC7 Ox3F 0x00 OxCO Ox8D 0x00 0x91 0x02 OxC7 Ox3F 0x00 0x00 Ox8E 0x00 0x91 0x02 0xC8 0x00 0x80 0x80 0x00 0x91 0x02 OxC8 Ox3F 0x00 0 0 0x81 0x00 0x91 0x02 OxC8 0x00 0x40 0x00 0x91 0x02 0xC8 Ox3F 0x00 0 0 Ox8D 0x00 0x91 0x02 OxC8 Ox3F 0x00 0x00 Ox8E IPETRONIK GmbH amp Co KG hnindex Nr 0 11 Input ChnMode 29Bit 2 11Bit 1 Baud rate ID CAN LIN ID Length Number of bytes Bytes Message lt Manual lt Group 1 lt Group 2 lt Group 3 lt Group 4 ipetronik com 66 123 Conditions Name Condition Messages which have to be send at measurement start lt The output sequence is defined by the sequence of the list OnStart Time Channel Message 2500000 CANO Manuell 1 lt 2500000 us after Start CAN input To adjust a group replace with Group1 1 2500000 CANO Manuell 2 lt 2500000 us after Start CAN input To adjust a group replace with Group1 2 2500000 CANO Manuell 3 lt 2500000 us after Start CAN input To adjust a group replace with Group1 3 2500000 CANO Manuell 4 lt 2500000 us after Start CAN input To adjust a group replace with Group1 4 2500000 CANO Manuell 5 lt 2500000 us after Start CAN input To adjust a g
46. 11 a b g COMgate WAN WLAN acc to WiFi 802 11 a b g and modem for GSM GPRS 3G 4 status LEDs SMA for WiFi antenna Lemo OB socket PWR ETH Cable 620 614 to logger with ETH socket Lemo OB 7 pin FME for modem antenna LED status display LED display Status Meaning Device is ready for operation operation see LED yellow or orange Establishing connection to UMTS GPRS network Successfully registered to UMTS GPRS network MODEM Steady connection mE WiFi Establishing connection to WiFi network E WiFi Successfully registered to WiFi network 2000 YELLOW WiFi Steady connection REDO ERROR Interference potential reasons are transfer of new configuration wrong configuration loaded general operating interference fI M COMgate requires additional external cooling on M LOG at operating in ambient temperatures gt 70 CT 158 F Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 101 123 10 1 2 Extender CAN Extender Input with status Operating status ETH PWR socket LED Bus traffic LEDs to M LOG M LOG Extender is an extension device with 4 additional CAN inputs M LOG devices which are already equipped with a LX800 processor board as well as the option Input 2x Ethernet can be extended without modifying hardware The extender is screwed to the bottom of the basis device with 4 screws and connected to the logger with the cable 620 406 002 here PRO8 or 620 404 002 for PRO3 and 62
47. 120 Pixel B x H 30 20 10 5 images per second Medium 320 x 240 Pixel B x H 30 20 10 5 images per second High 432 x 240 Pixel B x H 30 20 10 5 images per second Max recording timeDefines the recording duration Frame rate Defines the number of images per second All three options directly influence the required memory Trigger A trigger condition must be defined to start recording Trigger mode Triggering to raw data or scaled values Raw Triggering to raw data Phys Triggering to physical values acc to scaling Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 85 123 Options license required IP TRON Recording audio data Data logger M LOG S LOG supports recording audio signals Sounds speech with a microphone at the audio input Following settings are available Bit rate Defines the audio signal quality 22050 Bit s FM radio 11025 Bit s AM radio 8000 Bit s Phone quality Max recording timeDefines the recording duration Both options directly influence the required memory Trigger A trigger condition must be defined to start recording Trigger mode Triggering to raw data Raw or scaled values Phys 8 2 7 UDS protocol Unified Diagnostic Services UDS protocol combines KWP2000 GMLAN and DiagnosticOnCan in one protocol An advantage is the clear session handling higher compatibility of different control units Furthermore UDS supports modern memory structures which require a gt 3
48. 2 Bit addressing The corresponding description file has the ODX extension Control units of some manufacturers already support UDS which will be used as standard diagnostic in near future Jobs overview TESTdrive V03 15 supports the following jobs which can be read UDS FS READ gt FS READ DETAIL IDENT gt READ DATA REFERENCE FG READ DYNAMICALLY DEFINE LOCAL ID These jobs can be defined with an idf file Storing data The results are optionally stored as binary file CSV and J or as trace and binary file CSV J and The files are identified as follows Single data detected via KWPonCAN BDKxxxx CSV bzw BDKxxxx Jxx former description BDJxxxx CSV bzw BDSxxxx Jxx UDS data detected via trace mode BDUxxxx txx Selecting protocol The UDS protocol is selected with the corresponding tab in the import module Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 86 123 Options license required 8 3 Recording GPS Data IP TRONIK The GPS receiver GPS 18 and the NMEA protocol option M LOG S LOG as well as FLEETlog WAN with integrated GPS receiver support the continuous recording of GPS data with the global satellite navigation system This functionality allows positioning and logging of test routes with a data rate of 1 Hz E Kk BEY Be wi Project Signals Acquisition View Data manager 5 4 hod svstem Add component
49. 253 07 IPEspeed komplett 00071813 DAT 21 58 BAD IP 26 80900023 20130629 114253 07 IPEspeed komplett 00071813 R32 1 702 27 BAD P 26 80900023 20130629 114253 07 IPEspeed komplett 00071813 T64 141 851 BAD P 26 80900023 20130629 114253 07 IPEspeed komplett 00071813 W16 106 39 26 80900023 20130629 114253 07 IPEspeed komplett 00071813 w32 70 92 BAD P 26 80900023 20130629 114253 07 IPEspeed komplett 00071813 W8 425 56 BAD P 26 80900023 20130629 114253 08 Temperaturen Motorraum 00081813 DAT 6 93 BAD IP 26 80900023 20130629 114253 08 Temperaturen Motorraum 00081813 16 94 331 BAD IP 26 80900023 20130629 114253 08 Temperaturen Motorraum 00081813 T64 47160 BADJP 26 80900023 20130629 114253 08 Temperaturen Motorraum 00081813 BAI 0900 Speed mph 3 Time Speed mph Time Speed mph 1 BAD IP 26 8090 BAD IP 26 80900023 BAD IP 26 80 BAD IP 26 809000 BAD IP 26 8 BAD IP 26 809000 4934 240 898994 293171491642925 246 95334 2 7618708610534 247 630911 2 41553670539855 4935 240 97946 2 53171491622925 247 033392 2 7618708610534 247 655266 2 416636 70539856 4936 240 999118 2153171491622925 247 084021 270187056105347 247730998 2153171491622925 4937 241 079566 2 416636 705359856 247 123429 2 7618708610534 247 4 2 7616708610534 4958 241 98938 241063070539056 247 173719 2 646792650222 75 247 645152 2 f6167086105347 4939 241 172301 2 41563670539856 pit 2 54579255022
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51. 40 unjeg 0 7 woz 1 2 1 6 H NWO W 8 4 ON9D YMd W Z 2 9 ON9 NMd W 9 ONS HL3 S GN9 NVO W S XY HLA P AS W p tXH Hl3 E ON AS W Xl1 Hld 110 2 Xl Hl3 l LNO ssiom 22242240606 046 g 0 5 NVO W AINOALEdI GARE DW O I LNV2 2 01 IN 6 QU IN 8 IN Z 110 901 9 1 lt 9 6 13 1 1 8 ONS BM d M3IA t NI HMd Z 2 NI HMdzl dMd M3IAzL 09 poy 104 049 g 16 41 odo g 1 1 MalA W INO 90 1 Sc L V8A LNVWO vC H LNV2 2 1 LNV2 22 ON9 LNV2 IZ 1 V8A CNV2 02 H CNV2 7 6l 1 8 ONS e NVO 1002 1100 9I 1 0 SI L LNOQ vl LNO dN m 21 1 V8BA ENV2 H ENV2 0l 1 2 6 8 1 H FNY2z9 l FNV2 S OND FNVO P WOO NIQ NIQ 2 L NIQ 1t 0462 aqng 109 123 ipetronik com IPETRONIK GmbH amp Co KG r Manual 03 51 Logge AINOHLlI3dIl UN 690 1099 299 LOL 007608 TRONIK WOoa2 1nodssL E 1 0 lt 6 1 11
52. 51 IPETRONIK GmbH amp Co KG ipetronik com 55 123 Counter with counting condition and reset Syntax Description Beispiel Tip Counter Constant F Signal Trigger 101 gt x Counter01 y 0 101 gt x VALID Counter01 0 y 0 Counts continuously with the current sample rate as long as the current value of Channel01 is greater than x The counter value is increased by y with each sample as long as Channel01 fulfills the condition Otherwise the counter will be reset to 0 As son as the condition is fulfilled again the counter restarts with 0 The rise of the counter slope depends on the currently configured sampling rate and the counter step A measurement stop resets the counter to O Counter01 IF Channel01 gt 5 Counter01 1 0 Accumulates 1 with each sample as long as Channel01 is greater than 5 Stop counting and reset to 0 as soon as Channel01 is less than 5 Used with TESTdrive logger application this recursive formula will result in valid values as the initial value for variables is set automatically Used with IPEmotion Acquisition gt Calculations Formulas the respective formula has to be completed with the Valid function 10 20 30 40 50 60 Sampling time Validation check VALID Syntax Description Example Tip VALID x VALID x y VALID checks the current value of a channel or a ca
53. 5886 the check box Update 0 i 0 1 10 Hz connection parameters 4 4 DOUT 03 L 0 1 0 1 1Hz E Click Configur ation g General Extended System activated Data manager cov 0 Update connection parameters Configuration gt Choose the tab Medium com 0 422704 selecti on and activate LAN Ch mam 0 Take configuration into measuring file za Ern gom gto acero 4 Logger processin 11 e into measuri e gt Refer to the dialogs below We ostprocessing during acquisition for dynamic Get IP address automatically and static IP Calatstons address settings When using the static IP address with the logger it is necessary to P Data transfer configuration 80001707 EJ adapt the system control settings General Medium selection LAN of the PC Notebook LAN For example Modem IP address 192 168 0 100 COMgate Subnet mask 255 255 255 0 Import Export OK Cancel IP Data transfer configuration 80001707 IP Data transfer configuration 80001707 el EJ General Medium selection LAN General Medium selection LAN Get IP address automatically Get IP address automatically address 0 0 0 0 IP address 192 158 0 101 Sub netmask 0 0 0 0 Sub net mask 255 255 255 0 Standard gateway 0 0 0 0 Standar
54. 7 4 set in the result bit 0 all others will be 11011 00100 set bit 1 7 Statistic functions Function Syntax Description Example Result MIN Minimum 01 4 12 3 25 17 3 MAX Maximum 01 4 12 3 25 17 25 Average from all valid values MEAN Average from Average from n valid values n values Less value MINOR Temp01 02 4 12 4 MAJOR Greater value 01 Temp02 4 12 12 FLOOR Round integer FLOOR Temp01 13 72 13 off CEIL Round integer CEIL Temp01 13 41 14 Up ROUND Round integer ROUND Temp01 13 41 13 13 72 14 LIN Linearization LIN Temp01 x node 1 y node 1 x node n y node n Runs a linearization with the defined nodes Between n 2 and 16 nodes can be defined 8 Other functions Function Description EDGE POS Detect positive edge 1 if current value is gt 0 and the previous one 0 EDGE NEG Detect negative edge Logger Manual 03 51 1 if current value is lt 0 and the previous one gt 0 IPETRONIK GmbH amp Co KG ipetronik com 51 123 Standard functions Function DIFF INT INT UP PREV 1 PREV Temp1 PREV PREV Temp1 3 SHL SHR TESTBIT TESTMASKS TIME TIMER VALID VALID x y Logger Manual 03 51 IP TRONIK Description Exampl
55. 91 ous Sdfi W uM d 201s8 J1O0NH3H 5 HO NI HMd t QH2 HI HAMdz NI HMd z HI HAM 1 09 109 9 ous gsn LA owe poo c asn 1490 9965 ONS NI MMd uiau QNO gsn L 950 NI 998 9 0 110 123 ipetronik com IPETRONIK GmbH amp Co KG Manual V03 51 Logge Appendix IP TRON 11 2 Starting up 11 2 1 Overview Configuration amp Measurement Configuration gt USB gt M LOG Measurement data M LOG gt USB Configuration file J Measurement Start Configuration via IPEmotion Configuration license required Create new or read and process Create new existing configuration Device System CANdb or ASAP2 for CAN config Configure bus measurement input by import of the respective description file Yes import CANdb or ASAP file No SIM or M Modules and M LOG Yes Configure modules Configure via IPEmotion directly or import CANdb Save Configuration Save configuration as an MCF file mcf to USB stick Insert USB stick In case M LOG is switched off to M LOG gt switch on the module before Do not switch on M LOG with Yes M LOG saves data on USB stick the USB stick insert Copy new config Transfer new configuration from the USB stick to M LOG to M LOG
56. BCCCC WAV Audio sequence 1 A0010699 WAV Audio data of 1 trigger event Audio sequence 2 A0020699 WAV Audio data of 2 trigger event Audio sequence x A00x0699 WAV Audio data of 3 trigger event Video recording A DIAdem acquisition and one or several video files JPG single image or AVI video sequence are created with an video recording The acquisition contains the trigger event the JPG or AVI file includes the video data Every video file is assigned to one triggering event The names of the video files include the counter value of the trigger channel to create a direct reference within the acquisition data The respective video file is recorded for the time of an activated trigger Exactly one single image is saved per trigger event independent of the trigger duration Example file Acquisition no 699 gt VOOOCCCC DDD Trigger channel 1 Video V0000699 DAT Header V0000699 W16 16 Bit Word unsigned Or Trigger channel 1 Image 10000699 10000699 16 16 Bit Word unsigned Example video file Acquisition no 699 gt VBBBCCCC AVI Video sequence 1 V0010699 AVI Video data Video sequence 2 V0020699 AVI Video data or Image 1 10010699 JPG Image data Image 2 10020699 JPG Image data Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 121 123 Diagnostic acquisition Error memory and non recurring data TESTdrive creates additi
57. BIN Traffic data recorded by TESTdrive TBBBCCCC BIN Consecutive number within an acquisition TBQSCCCC BIN Traffic data recorded by micro controller Maneuver recording TESTdrive creates a file in ASCII format for maneuver recordings The maneuver file functions like a storage group i e the file receives a consecutive number within the acquisition The names of the single acquisition files are generated according to MVBBCCCC ASC structure MVBBCCCC ASC Name of respective storage group Example Acquisition no 699 gt MVBBCCCC ASC Storage group 1 DO010699 DAT Header DO010699 116 16 Bit Integer signed Storage group 2 DO020699 DAT Header DO020699 R32 32 Bit Real Maneuver file MV030699 ASC Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 123 123
58. C 620 578 030 angled C M VIEW fleet 620 574 015 Power Remote 620 500 003 M CAN Termination 600 830 005 SIM CAN 620 500 002 M CAN 600 830 003 SIM CAN Termination M LOG 5 E mE S LOG DIO M LOG OPT 030 dovetail adapter M LOG OPT 031 mounting plate 620 32 4 xxx open 600 580 xxx D Sub D open M VIEW fleet is connected to M LOG with an USB 2 0 interface A second USB port of the logger is available at the display USB 2 is used for e g a program update or to exchange measurement or configuration data via USB flash drive USB connections are designed for a maximum length of 5 m Display settings are defined in the system configuration Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 90 123 9 1 1 Keys and LEDs CHNO1 Temp gee E CHNO1 Temp 2 iL 69 4 MEA 0115 MANUAL EE n Status line The scroll mode MANUAL with Up Down keys or AUTO automatically is displayed in the right zone of the staus line The following informatiojn is alternately shown in the left zone DATAFILE Name of current data file TIME LEFT Available time in days D and hours H for data recording DRIVER Selected driver SHIFT Selected shift track or road sections belonging together OK Function in standard display 1 Display Min Max Press longer than one second 2 Back to standard display Pres
59. Data logger M LOG S LOG FLEETlog IPElog 3 3 4 Static and dynamic IP addresses IP TRONIK Basically IPETRONIK data loggers can be connected to other network clients via Ethernet in two different ways b Point to point connection between the logger and the PC Notebook Usually neither the logger nor the PC Notebook supports DHCP Dynamic Host Configuration Protocol it is necessary to set a fixed IP address for both Client to client connection between logger and PC Notebook through a local network In this case the network server provides DHCP and manages the automatic IP address assignment to all network clients Therefore logger and PC have to use dynamic IP address settings P Pi AEE a e d P Emotion Project Signals Acquisition View Data manager Analysis Reporting Scripting Info e Use the Data manager tab to enter the settings for the logger ba oy Add system Add components Import Export Check Adjustment Detect Initialize Start displaying gt Mark the logger at the left hand T IER tree structure top area V03 50 00 Name Active Unit Phys Min Phys Max Sensor Min Sensor Max Sampling rate v E 3 Select the Data manager tab NT uU ES from the right hand down area 0 Jono 0 0 10 Hz i a om S4 DIN 03 L 0 1 0 1 10 Hz configuration tabs and activate 4 2888
60. E SOFTWARE Since some states or jurisdictions do not permit the exclusion of implied warranties or limitation of liability for consequential damages in such states or jurisdictions the liability is limited to the fullest extent permitted by law 5 Intellectual Property Infringement Indemnification a IPETRONIK shall defend indemnify and hold LICENSEE harmless from and against any claims and fees including attorneys fees damage awards arising in connection with a claim that the licensed SOFTWARE or documentation when properly used infringes upon any presently existing valid and enforceable United States patent trademark or other intellectual Pepe right provided that such claim of infringement is not based on any Modification or action taken or suffered by LICENSEE other than the use of the licensed SOFTWARE and documentation in accordance with the terms and conditions of this agreement ii such claim of infringement is not based on any action by LICENSEE in modifying the SOFTWARE pursuant to the terms of Section 2 d ii LICENSEE promptly notifies IPETRONIK of such claim in writing at support ipetronik com and gives IPETRONIK exclusive control over the defense and settlement of such claim iv LICENSEE provides such cooperation and assistance at IPETRONIK S expense as IPETRONIK may reasonably request to settle or oppose any such claim and v Such claim of infringement is based only on the licensed SOFTWARE and documen
61. E mail Ta Subject Logger SerialNumber Measurement no MeasurementId finished From Logger SerialNumber OMeasurement MeasurementId O Attachment attachment Server settings Server IP address Authentication Server name User Password Import Export Cancel To E mail address of recipient Subject Subject line for serial number and mesaurement number file From E mail address of sender any text Description field Description of serial number measurement file number and attachement Server IP address IPE address of outgoing mail server to e mail account e g smtp mail proivder com for sending Server name Alternative input of server name of outgoing mail server Authentication Access authorization to user e mail account User User name Password Password Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 64 123 Standard functions 7 8 Output messages to CAN LIN With the Logger Plugin V03 21 00 TESTdrive 3 21 and higher an output of user defined messages to CAN bus or LIN bus is supported The output timing can be selected from one time at start measurement one time at stop measurement cyclical every x ms IP TRONIK An external file with the DAT extension is used to configure the settings for the messages A sample file is available from c Programs IPETRONIK IPEmotion Plugin IPETRONIK LOG V03 xx xx Data Channel dat The header of this files contains detailed informat
62. ES FURTHERMORE IPETRONIK S LIABILITY WHETHER IN CONTRACT TORT OR OTHERWISE ARISING OUT OF OR CONNECTED WITH THIS AGREEMENT OR THE LICENSED SOFTWARE OR DOCUMENTATION SHALL IN NO CASE EXCEED THE PAYMENTS RECEIVED BY IPETRONIK FROM LICENSEE FOR THE LICENSED SOFTWARE AND DOCUMENTATION EXCEPT IN CONNECTION WITH ITS OBLIGATIONS UNDER ARTICLE 5 i IN NO EVENT SHALL LICENSEE BE LIABLE FOR SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES INCLUDING WITHOUT LIMITATION LOST PROFITS LOST DATA OR LOST SAVINGS EVEN IF LICENSEE WAS ADVISED OF THE POSSIBILITY OF SUCH DAMAGES AND i LICENSEE S LIABILITY WHETHER IN CONTRACT TORT OR OTHERWISE ARISING OUT OF OR CONNECTED WITH THIS AGREEMENT OR THE LICENSED SOFTWARE OR DOCUMENTATION SHALL IN NO CASE EXCEED THE PAYMENTS OWED TO LICENSOR FOR THE LICENSED SOFTWARE AND DOCUMENTATION 7 Indemnification Obligations of LICENSEE a LICENSEE shall defend indemnify and hold IPETRONIK harmless from any claims losses expenses fees including attorneys fees costs or damages arising in connection with a MODIFICATION or LICENSEE S unauthorized use of the Licensed Software or Documentation 8 Merger Clause a LICENSEE agrees that this Software License Agreement is the complete and exclusive agreement between LICENSEE and IPETRONIK governing the SOFTWARE This Software License Agreement supersedes and merges all prior agreements with IPETRONIK concerning the SOFTWARE and can only be modifi
63. FTWARE is being provided to it only for use in EQUIPMENT in the ordinary course of business and that LICENSEE agrees and acknowledges that IPETRONIK is the owner of all title and proprietary rights in the SOFTWARE including without limitation any and all patents copyrights trademarks or any other intellectual property rights associated with it under the laws of the United States or any jurisdiction throughout the world No right title or interest in the SOFTWARE or any IPETRONIK patent copyright trademark or any other intellectual property right is transferred to LICENSEE or any other party through this Software License Agreement 4 Disclaimer of Warranties Liability Limitations a THE SOFTWARE IS PROVIDED TO YOU AS IS THERE ARE NO WARRANTIES OF ANY KIND WHETHER EXPRESS OR IMPLIED INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND COMPATIBILITY AND TITLE LICENSEE ASSUMES ALL RISK AS TO THE SELECTION USE PERFORMANCE AND QUALITY OF THE SOFTWARE IN NO EVENT WILL IPETRONIK OR ANY OTHER PARTY WHO HAS BEEN INVOLVED IN THE CREATION PRODUCTION OR DELIVERY OF THE SOFTWARE BE LIABLE FOR SPECIAL DIRECT INDIRECT INCIDENTAL OR CONSEQUENTIAL DAMAGES INCLUDING LOSS OF PROFITS OR INABILITY TO USE THE LICENSED MATERIAL NO EVENT SHALL IPETRONIK S LIABILITY FOR ANY DAMAGES OR LOSS TO LICENSEE OR TO ANY THIRD PARTY EXCEED ANY LICENSE FEE ACTUALLY PAID BY THE LICENSEE TO IPETRONIK FOR TH
64. IN 1 1 COM 1 DCD 2 DIN 2 2 COM 1 RXD 3 DIN 3 COM1 TXD 4 DIN 4 4 COM1 5 DIN GND 5 D GND 6 LOG PWR 6 COM 1 DSR 7 LED 1 green 7 COM1 DTS 8 LED 2 yellow 8 COM 1 CTS 9 LED 3 redt 9 10 DIN GND 10 COM2 RXD 11 DOUT 1 11 COM2 TXD 12 DOUT 2 12 DGND 13 DOUT 3 13 GPS PWR 14 DOUT 4 14 MODEM PWR 15 DOUT COM 15 PWR GND Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 21 123 Data logger M LOG S LOG FLEETlog IPElog 6 PWR REMOTE 7 LAN 8 AUDIO PIN PIN Ethernet PIN Micro Headphone 1 PWR IN 1 1 MICR REF 2 PWR IN 2 2 MICR SIG 3 PWR IN GND 3 ETH RX 3 HEADPHONE GND 4 PWR IN GND 4 ETH RX 4 MICR GND 5 IGN Line 15 5 ETH GND 5 HEADPHONE 6 REMOTE2 6 PWR GND 7 MODEM PWHR 3 2 4 Device panel for changing the internal memory card S LOG and M LOG M LOG with Upgrade Kit 300 offer a screwed panel for exchanging the cF memory card if required The FLEETIog is equipped with cF card slot behind the folding front panel IPElog has a screwless fixed front panel with open close contact for exchanging the SSD memory card Please note the advice to only change the memory card in exceptional cases because of a possible intrusion of foreign material dirt or water into the device and the logger could be damaged at removing the cF card The regular data transfer should be done with the USB stick or the wireless connecti
65. LATION COPYING OR USING THIS PRODUCT IN ANY WAY YOU ACKNOWLEDGE THAT YOU HAVE READ THIS LICENSE AND THAT YOU UNDERSTAND AND EXPRESSLY AGREE TO BE BOUND BY THE TERMS AND CONDITIONS SET FORTH BELOW 1 Definitions a SOFIWARE is defined as computer program in object code or machine readable format together with any and all modifications enhancements updates and improvements provided by IPETRONIK as well as any subsequent versions corrections bug fixes enhancements updates or other modifications regardless of the source The term Licensed Software shall not include the source code version of the Licensed Software b EQUIPMENT is defined as automotive measuring equipment produced by IPETRONIK as well as other parties c LICENSEE is defined as the recipient of this SOFTWARE and any of its employees agents or representatives d MODIFY or MODIFICATION is defined as change to the SOFTWARE by LICENSEE in order to customize the SOFTWARE for use solely by LICENSEE 2 License Terms a Aslong as LICENSEE complies with all terms in this Software License Agreement IPETRONIK grants LICENSEE a non exclusive non transferable license to load and use the SOFTWARE upon the terms and conditions set forth below b LICENSEE has the right to load the SOFTWARE for use on any internal computer or piece of EQUIPMENT as long as it is only on one computer or piece of EQUIPMENT at any given time c LICENSEE will notify all of its employees agen
66. LED is not permanently on disconnect the USB stick The logger runs now in acquisition mode Please note that data can only be imported via USB if no LAN connection to the logger is activated Disconnect the logger with the logger context menu Connect C9 Disconnect Acquisition start 3 3 Synchronizing the logger time gt Mark the logger at the left hand structure top area V Right click to the logger entry and select Hardware license intarmiation Extras gt Synchronize logger time from the context menu I Extended properties local time former UTC Time stamps reported XML files always indicate the offset lag to UTC time e g lt startdate gt 20 12 04 25 109 30 10 01 00 lt startdate gt In order to ensure a correct time interpretation of recorded data the IPETRONIK data converter IPEconverter V02 13 is required e Time data of time stamp and log messages have been normalized Now time stamp output is 3 3 8 Updating the measurement application TESTdrive Copy the file MLogger rtb standard or Logger prg for M VIEWgraph to the subdirectory named with the logger s serial number on the USB stick Power up the logger and wait for the yellow LED which indidcates data acqusition Plugin the USB stick to the logger program update will start automatically Wait until the yellow LED lights no longer and unplug the USB The logger executes
67. NG SUBD SPol CANS LN1 cmap 0 FIN1 PINS SubD CAN4ILING Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 33 123 Configuration with IPEmotion extract P TRON 5 Configuration with IPEmotion extract The IPEmotion software is required for configuring a logger measuring system and the corresponding IPETRONIK devices The software must be installed on the notebook PC which is used to configure See the instructions in Commissioning IPEmotion also supports the online data measurement with using the XCP service You can find a detailed description of IPEmotion in the manual which can be opened in the software as a PDF 5 1 First steps 5 1 1 Main dialog After the start of IPEmotion the following screen appears Main Navigation Tabs Quick Access Bar gt PSHESSNGEEARX Og IPEmotion File Project Signals Acquisition View Datamanager Analysis Reporting Scripting Info T Oe Export Adjust Detect Initialize Display omponents D Configuration Access VO3 51 00 30750 RC Name 2 E DIN 01 2 DIN 02 Project settings DIM 03 CAN 01 DIN 04 CAN 02 CAN 03 lih din CAN 04 DIN DOUT 4 Active 8 1 General Format Scaling Display
68. NIK product 1 1 1 Safety and Warning instructions Please follow the instructions and information as contained in the user manual 1 The user can influence an electronic system by applying the IPETRONIK product This might cause risk of personal injury or property damages 2 use and application of the IPETRONIK product is permitted only to qualified professional staff as well as only in appropriate manner and in the designated use 3 Before using an IPETRONIK measurement system in the vehicle it has to be verified that no function of the vehicle which is relevant for secure operation might be influenced by the installation of the IPETRONIK measurement system in the vehicle by an potential malfunction of the IPETRONIK system during the test drive In order to avoid possible danger or personal injury and property damages appropriate actions are to be taken such actions have to bring the entire system into a secured condition e g by using a system for emergency stop an emergency operation monitoring of critical values Please check the following points to avoid errors Adaption of sensors to components of the electrical system electronics brake system engine and transmission control chassis body of one or several bus systems CAN LIN ETHERNET including the required electrical connection s for data acquisition Communication with the vehicle s control units ECUs especially with such of t
69. ON pulse Continuous Remote Timeout 7 Variant 2 Switch on condition WakeOn CAN enabled continuous remote signal required before timeout expires Conitnuous Remote If a remote signal duration 1 s is identified during post processing the logger will stop this task and start a new acquisition HW Emergency switch off The logger will be absolutely switched off by the power management 2 h after the previous falling edge of the remote signal Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 42 123 WakeOnCAN Ignition line 15 Q D T gt Ready for operation Measurement Stop Zip split encode files transfer data depends on settings Remote OFF switching off Status SW Emergency switch off Communication Timeout HW Emergency switch off Power Management 1 Follow up time WakeOnCAN Continuous Remote Timeout WakeOnCAN Ign 15 Switch on condition WakeOnCAN enabled continuous remote signal required before timeout expires jumper Pin 3 6 and Pin 8 9 at respective CAN input to indicate bus traffic WakeOnCAN Conitnuous Remote If a remote signal duration gt 1 s is identified during post processing the logger will stop this task and start a new acquisition HW Emergency switch off The logger will be absolutely switched off by the power management 2 h after the previous falling edge WwW
70. Triggering DOLIT LSE Storage rate From channel ETH Time stamp channel COM 1 COM 2 NoValues Audio Save tigger channel Display Logger processing Prefix 7 Status a Storage groups 52 sz 9 a a m fi Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 71 123 Standard functions Measurement file IP TRONIK Event based signals are recorded in an event based storage group 5 signal based storage group DOxxxxxx DAT with cyclic storage rate cannot contain event based signals since event controlled or cyclic recording types are properties of signals and not of storage groups There are two types DAT files DOxxxxxx DAT for storage groups with cyclic storage rate and signals with fixed cyclic sampling rate gt TSxxxxxx DAT for storage groups with event controlled non cyclic signals without fixed sampling rate Conclusions gt Each message that is recorded event controlled receives an individual time channel In DAT format of the logger measurement each message creates an own internal storage group TSxxxxxx DAT In order to ensure strong system performance it is useful to check the number of event controlled measuring signals according to the application necessary number of storage groups Measurement data set In table view it becomes obvious that time intervals are not equidistant any mor
71. U Vehicle ECU cms Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 13 129 2 2 Connecting devices via bus 2 2 1 Basics of CAN bus CAN Standard The communication of the SIM and devices takes place by using the CAN bus according to the CAN 2 0 A 11 Bit Identifier and CAN 2 0 B 29 Bit Identifier specification Each software application which is able to detect CAN data via a suitable interface can detect the device data and process Examples CANalyzer INCA LabVIEW The device configuration takes place by using the CAN bus and the IPETRONIK configuration software Structure of a CAN message Remoteframe CAN 2 0A 11 Bit Identifier Start Identifier RTR IDE 0 DLC Data CRC EOF IFS lt gt Remoteframe CAN 2 0B 29 Bit Identifier 1 Bit 11 Bits 1 Bit 1 Bit 1 Bit 4 Bit 0 8 8 Bit 15 Bit 2Bit 10 Bit recessive recessive Start Identifier SRR IDE Identifier RTR r1 DLC Data CRC EOF 1 Bit 11 Bits 1 Bit 1Bit 18 Bits 1 BitS4 Bit1 Bit 4 Bit 0 8 8 Bit 15 Bit 2Bit 10 CAN 2 0A 11 Bit Identifier CAN 2 0A 11 Bit Identifier Bits Description Bits Description 1 SOF Start of Frame 1 SOF Start of Frame 11 ID Identifier 11 ID Identifier 1 SRR 1 IDE Identifier Extension 0 1 IDE Identifier Extension 1 18 ID Identifier extended 1 RTR Remote Transmission Reques
72. W8 file all 32 bit signals signed in a 132 Datei etc Important advices TESTdrive defines the number of the storage group during the initialization process An assignment of the storage group number to the order in the configuration interface is not given All information of a storage group is stored in the DAT file The DAT file has a 8 bit ASCII format ANSI code page 1252 ISO 8859 1 The storage group name can be defined with IPEmotion and is also stored in the DAT file All project information are stored in the DAT file vehicle no project name etc At working with classifications the DAT file contains additional fields to define the classification in detail 11 5 1 Data types Time related data Storage group The header file and the corresponding data files are created for every storage group signals with common storage rate Example Acquisition no 699 gt DOBBCCCC DDD Storage group 1 DO010699 DAT Header DO010699 R32 32 Bit Real DO010699 W16 16 Bit Word unsigned DO010699 W32 32 Bit Word unsigned Storage group 2 DO020699 DAT Header DO020699 W8 8 Bit Byte unsigned DO020699 W32 32 Bit Word unsigned Storage group x DOOx0699 DAT Header DOOx0699 W8 16 Bit Word unsigned Statistics TESTdrive saves classification data DIAdem format which includes all parameters in one header file This header file includes additional information about classification description Corresponding to the storage group
73. WiFi acc to 802 11b g External External WAN v FLEETlog GPRS UMTS External External 2 WAN Y FLEETlog Positioning via GPS and NMEA0183 External External WAN v Audio input standard micro or iMIC External External Video input USB camera External External External Protocols processes CCP Option Option Option Option KWPonCAN XCPonCAN Option Option Option Option XCPonEthernet Option Option Option GMLAN Option Option Seed amp Key Option Option Option Option UDS Option Option Option Option Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 17 123 Data logger M LOG S LOG FLEETlog IPElog Data acquisition processing transferring Online calculations different storage groupes v v Y Statistics also parallel to time related data Option Option Option Option Packing splitting encoding data v Y Y CANsend Data and status signal output via CAN Y v Y v WakeOnCAN v Traffic measurement Option Option Option Option LOG2PC v v v v XCP Service v v COMgate or COMgate WAN COMgate WAN Overview properties and options M LOG LX 5 FLEETlog IPElog Device in general Excitation all 12 24 42 VDC power supplies v v Excitation 9 to 36 VDC v v v Ambient temperature 40 C to 85 C 40 F to 185 F Ambient temperature 20 C to 70 C 4 F to 158 F Enclosure protection class IP54 lt lt lt lt lt lt lt
74. YE Standard CAN 2 CAN Send p Em Traffic recording t GMLAN Bim GMLAN job based QE Status ipetronik com 60 123 7 44 WakeOnCAN WakeOnCAN function switches the logger as soon as the respective CAN bus is active i e when messages are transferred 7 4 1 ON via WakeOnCAN OFF via Ignition 15 If there is no Switch off time configured the remote signal e g terminal 15 must be active within the set timeout to permanently switch on the logger The logger is turned off if the remote signal is not received after the timeout The logger stays in operation mode as long as the remote signal is high As soon as remote is low the Follow up time will start and the logger is switched off when datat postprocessing is finished Bridge Pin CAN2 6 GND Pin 6 PWR GND General Extended System Data manager Bridge Pin 8 WaOnCAN gt Pin 9 UB OUT Switch on condition WakeonCAN Timeout 1 min 1 E 2l T USB 1 isoliert 1 5 SubD 9 pol Stift 1 CANS5 L 2 CANI L 1 5 4 CAN5 H 5 Option VBATT IN CAN 5 WaOnCAMN 65 PWR GND 1 1 a Ontien on E ATTAN CAN1 9 0 CAN 2 6 SubD 9 pol Stift I CAN6 L l 2 CAN2 L i 3 CAN2 6 GND i i 4 C AN6 D s YT TET epending on the CAN card Port replicator the WaOnCAN function sup
75. acquisition Appearance IPETRONIK X 01 03 02 16363 IPETRONIK Ethernet devices IPETRONIK Data manager E d1cz Import IPETRONIK LOG D TEN DR Aun Be E Export ADVANTECH 01 00 00 20813 ADVANTECH bus coupler IPETRONIK Analysis E CAN Send 01 00 01 CAN Send with IPETRONIK server Directories CAN Acquisition 01 05 00 256052 CAN Acquisition with 5 IPETROMIK Units S CAN protocols 01 01 01 protocol acquisition with any ha IPETRONIK Hotkey ETH 01 00 00 23897 socket connection IPETRONIK User administration PRL With the Settings button you have the ability to define the components module type and priority e g for the type selection of the Dry configuration of the respective hardware system and to edit additional options settings PEmotion settings IPETRONIK LOG Components Options Type Priority E Ej M LOG 4 High M LOG 8 CAN E M LOG 6 CAN 2 LIN Low E M LOG 8 4 LIN Not used The selection of the hardware components for the configuration by using a signal library is based on the Priority This preselection with a priority assignation of the system components facilitates the device selection and improves the system speed The High priority defines a pr
76. al lasts for this time without interruption New jobs OnOK and OnError used for audible alarm of the job OnConnect Connected IPETRONIK modules will be initialized on command Never Once only Always Each time the trigger condition is fulfilled the current signal values configured in the mail group will be sent per mail Indication of limit violation has been revised Individual text can be assigned to different signal values or ranges which is respectively displayed instead of digits IPETRONIK GmbH amp Co KG ipetronik com 11 123 Important and general information P TRON 1 2 5 Support Headquarter IPETRONIK GmbH amp Co KG Im Rollfeld 28 76532 Baden Baden Germany Phone 49 7221 9922 0 Fax 49 7221 9922 100 info ipetronik com www ipetronik com Limited commercial partnership with its head office in Baden Baden registry court HRA No 201313 IPETRONIK Verwaltungs GmbH Baden Baden is an individually liable society registry court Mannheim HRB No 202089 CEOs Erich Rudolf Andreas Wocke Technical support and product information www ipetronik com e mail support ipetronik com 1 2 6 Related documentation IPEmotion The documentation IPEmotion pdf provides you with a description and useful information related to IPEmotion This documentation is stored in the following standard language dependent directory C Programs IPETRONIK IPEmotion Vxx xx xx Help 1 2 7 Documentation feedback At
77. als the control unit and the protocol are displayed Depending the protocol a sampling rate or the DAC list to use can be assigned to the signals In the case of a protocol using DAQ lists CCP XCP you can specify via the column selection dialog if the signals are configured by the sampling rate or a DAC list To achieve this you should open the column selection dialog via the context menu af the table header and then drag the desired column sampling or DAO list from the column selection dialog to the table header The other column is removed automatically If in a protocol based on DAQ lists sampling rates are used for the signal configuration during import the signals are assigned to the available DAQ list with the most suitable sampling rate Ss Select all IPEmotionDemo DBC 4af 10 signals selected OK Cancel Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 77 123 Options license required Import ASAP file E File Project Signals Acquisition View Datamanager Analysis Reporting ET Om System Components Export Check Adjust Detect Initialize Display CANdb Signal import from file V03 51 00 30750 RC AUTOSAR Signal import from AUTOSAR file wd nd Diagnostic import from IDF file 1 CAN O4 Se DIN sale i Signal import fram XML file DOUT g use Synchronize
78. als navigation tab Select Storage groups Select Add component gt Storage Ua V Pe a Bee 5 al group from the tab menu or the context Um Es 36 Aon a Oe menu right mouse button File Project Signals Acquisition View Data manager Analysis Reporti Enter a name and a description in the E General tab c 14 5 5 Activate the storage group D 6 Select Add component gt Channels sai gall a gee agi ods aaa a from the tab menu or the context menu right mouse button Select the signals and confirm with OK v03 51 00 3 Sy Ring buffer group Fill rate Define additional parameters with TN Settings und Triggering Storage group on the data logger 4 80002367 Project settings CAM 01 CAN 02 CAN 03 CAM 04 DIN DOLT USB ETH COM 1 COM 2 Audio Display Logger processing Status P qe ER EM Storage grau ER Mail groups EE Traffic groups Calculations Storage group Ring buffer group General settings Triggering l e eee Storage rate Fromchannel General Settings Triggering Time stamp channel storage rate From channel M NoValues Time stamp channel Save trigger channel NoValues Prefix Save trigger channel Ring buffer Prefix Ring buffer size 18 m Storage rate Selection of a fixed storage rate or a channel related storage rate F
79. alue arms Sonal Count Meaval 2 1Hz O m s 100 m s Sample measuring value m dan End Meaval 3 iHz Omjs 127 5 m s Sample measuring value CAN baudratel Meaval_4 1 Hz m 100 m s Sample measuring value 4 Meaval 5 iHz m s 127 5 m s Sample measuring value LI Batt i Hz OV 25 54 Battery voltage BatTemp 1 Hz 24 95 Battery temp StrgTemp 1 Hz 5 107 C ECL temp 4 me zal Importer 23 In this dialog all signals that be imported from the description are displayed In the left table all signals where the selection checkboxes are selected will be marked for import In the right table the properties of the selected signals the control unit and the protocol are displayed Depending the protocol a sampling rate or the DAQ list to use can be assigned to the signals In the case of a protocol using DAQ lists XCP you can specify via the column selection dialog if the signals are configured by the sampling rate or a DAQ list To achieve this you should open the column selection dialog via the context menu of the table header and then drag the desired column sampling or DAG list fram the column selection dialog to the table header The other column is removed automatically i m Select all IPEmotionDemo azZl 6 of 14 signals selected OK Cancel CCP protocol Resume active The ECU can be dis
80. anical adapters The FLEETlog hardware concept was designed for using the data logger in vehicle fleets whereas FLEETlog WAN is already equipped with modem WiFi client and GPS receiver 3 2 3 replicators and cables Various cables are available for every port replicator The complete PIN configuration as well as the appropriate cables of the PRO5 and 08 port replicators are shown in the appendix Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 19 123 Data logger M LOG S LOG FLEETlog IPElog Cable overview M LOG 5 and 5 1 1 Bus input 600 580 xxx 0 506 5 9 CAN open 620 537 xxx 5 S 9 CAN Banana 620 593 D Sub 5 9 2x CAN D Sub open 2 M CAN 620 560 xxx Lemo 0B 9 M CAN 620 562 Lemo 9 SIM CAN 2 SIM CAN 600 830 xxx Lemo 1B 10 SIM CAN 600 893 xxx Lemo 1B 10 angled SIM CAN angled 620 562 xxx 9 SIM CAN 3 Display 620 578 Lemo 1B 10 M VIEWfleet 620 595 xxx 1B 10 M VIEWgraph 4 Digital input output 620 324 xxx D Sub HD P 15 open 5 COM 620 576 xxx HD S 15 Modem 620 596 xxx HD S 15 Modem GPS 6 Power Remote 620 574 xxx 1B 6 Banana 7 LAN 620 591 xxx OB 6 Ethernet RJ45 8 Audio 620 550 xxx Lemo OB 5 Audio In Out 3 5mm 620 551 xxx OB 5 Audio In Out 2 5mm System and input cable
81. any input range signal and the related output range physical value Calculate the offset b by using the x and y values for a known point Calculate if required further y values by using the corresponding x values and the equation e g for calculating the physical values for another input range Channel min max Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 114 123 Appendix IP TRON Example pressure sensor A pressure sensor has an output signal of 0 5 to 4 5 V in the acquisition range 0 20 bar The voltage signal is converted to the physical value with the linear scaling Pressure bar E Excitation x1 x2 y1 y2 m b b 4 5 0 5 20 NO NO Example CAN raw value in the Word unsigned format als temperature A temperature signal is a CAN message in the Word unsigned format The value range of 0 65535 16 Bit corresponds to a temperature range of 50 200 calculating b Offset without output offset b Offset output offset Q Please note that the output range has an offset of 50 This must be respected at Temperature R poke 100 Pee Ee Pee ee Eee Raw data Bit x1 x2 y1 y2 m b b 65535 0 200 50 0 0038147 0 50 Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 115 123 Appendix IP TRONIK Example CAN raw value in the Wor
82. ast four digits of the logger s serial number using the field Front number gt Select the Data manager tab and activate the check box Update connection parameters and click to Configuration gt Enter valid settings for the IP address used for the Ethernet we recommend to transfer a valid already 03 50 00 EUSDD TER Project Signals Acquisition Data manager Analysis Reporting Scripting Info m4 Add m ts Noui AREY Name v M DIN 01 gt Project settings CAN 01 CAN 02 CAN 03 CAN 04 DIN DOUT USB ETH COM 1 COM 2 Audio Display wv DIN 03 DIN 04 DOUT 01 DOUT 02 Logger processing Status H O C O oo hk fF E Storage groups Mail groups Calculations General Extended System activated Data manager Front number 1707 TESTdrive version o IPEmotion Detect Initialize Start displaying Unit PhysMin Phys Max Sensor Min Sensor Max Sampling rate 0 1 0 1 10 Hz 1 1 10 Hz 1 1 10 Hz 1 0 1 10 Hz 1 0 1 10 Hz EA date The last 3 or 4 digits of the device 3 System status connection auto IP or fixed as described at Static an
83. ation or gt Manual configuration A IPEmotion options Start with the latest configuration Basic settings Appearance Data manager Standard command after successful detection Automatic hardware detection at start Import manc conni Export Analvsis Basic settings Select a preferred configuration type Hardware configuration Signals configuration Activate or deactivate the options Accurate acquisition chain required and Expert mode IPEmotion options rendent ied Preferred configuration type Gi Hardware configuration pot Basic settings 0 Signals configuration Data manager Signal database upo Accurate acquisition chain required Export F Expert mode Analysis T Directories Automatic service administration a Expert mode The protocol nodes of imported description files CANdb A2L FIBEX are visible this means the user has access to the signal properties With the protocols CCP and XCP the DAQ lists are displayed and can be processed delete move signals With the release of IPEmotion V01 07 00 internal channels gt Variables for temporary storage tasks have been implemented Managing this variables is only supported with an enabled Expert mode Activate the Automatic service administration option to automatically import the active channels into the DAQ lists of
84. bit is set for the time of one signal at every Low High of the trigger signal It is set once at acquisition start in Continuous acquisition mode 4 Maneuver Maneuver recording running No NoValues available anymore 5 Hes Currently not used 6 Hes Currently not used 7 Res Currently not used 8 Res Currently not used 9 Res Currently not used 10 Res Currently not used 11 Res Currently not used 12 WakeOnCAN WakeOnCAN ist active 13 Power Bad The logger is disconnected from the power supply 14 Power Good Buffer capacitors loaded 15 KL 15 Debounced remote signall terminal 15 6 3 Storage groups TESTdrive supports various storage groups to merge signals direct signals as well as calculated channels in so called storage groups Every storage group can has an own storage rate independent from the signal rate This storage rate is valid for all signals in the group i e the signal is detected with the set sampling rate and recorded with the storage rate The maximum storage rate of a group is defined by the signal with the highest sampling rate The frequency for online calculations corresponds to the highest sampling rate in the calculation Every storage group can has own trigger conditions see Triggering Selected signals can be detected with a high storage rate if required e g in case of a specific event Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 46 123 6 3 1 Storage group Select Sign
85. completely be excluded in the case of a total excitation loss M or SIM devices which are supplied by M S LOG FLEETlog C2 or IPElog are immediately switched off at excitation loss We recommend to revise the switching and the buffer capacitors every 2 years for guaranteeing a clean functionality The device calibration every 2 years includes this revision Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 23 123 Data logger M LOG S LOG FLEETlog IPElog 3 3 Initial start up 3 3 1 Connecting the logger M LOG PRO5 PRO8 Connect the red socket using the Power Remote cable e g 620 574 xxx with an appropriate power supply ETH 620 591 xxx 9 Voc 36 Voc PWR PWR Voltage supply Plus PWR 620 5740 Voltage supply Minus Shield Shield Shield or voltage supply Minus FLEETlog C2 Connect the white socket using the LAN cable e g 620 591 xxx with the Ethernet interface of a PCs Notebook resp using the LAN cable E e g 620 355 xx for connection to e network 620 591 Switch on the logger REM Ignition line 15 or power supply Plus via switch green status LED lights continuously Logger starts up and will enter the measurement mode after a short time yellow status LED lights continuously Refer to the Flow chart of the measuring process in the appendix for more de
86. connected and and reconnected to e GR 01 6 9 the CAN bus Data acquisition is continued after File Project Signals Acquisition View Data manager Analysis reinitialization M B 4 3 j d Seed amp Key System Components Import Export Chek Adjust petet Initial Authentication procedure used for restricted access to j ECUs A program file provided by the ECU manufacturer Eoniiguratic is required to proof access authority V3 51 00 30750 RC Mame A Mame gt process status Compares the checksums of the configuration A2L file 4 80002763 26 Tempa with the respective sums stored with the ECU Project settings 0 Temp 2 Temp 3 Use optional commands E Neon Voltage 3 Enables optional commands provided by the ECU V Ei m E ae Voltage 1 Commands are listed in the A2L file and make the Paling sd communication more comfortable CB 10mssyncev o General CCP Trigger 9 Resume active e 7 segsynceven 0 42 0 Seed amp Key 2 EPK check E 04 0 DN 4 Lise optional commands i 4 58 0 0 cow 2 n a Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 79 123 Options license required Import Diag
87. ct result If e g the result of a calculation with low cycle rate is used in a calculation with higher cycle rate a time offset results which can influence the result according to a signal change amplitude In that case the signal sampling rate of the first calculation must be raised 77 The formula editor requires the use of the semicolon instead of the comma as variable separator If a value within a calculation is NoValue the calculation result is Novalue too 7 1 1 Mathematic functions and operations 1 Basic operation Operator Name Syntax Example Result Addition Temp01 Temp02 15 10 25 Subtraction Temp01 Temp02 15 10 5 Multiplication Temp01 Temp02 15510 150 Division Temp01 Temp02 15 10 1 5 MOD Modulo Division rest Temp01 MOD Temp02 15 MOD 10 5 ABS Absolute value of a number ABS Temp0 1 ABS 15 15 SIGN Sign of a number SIGN Temp01 SIGN 15 1 SIGN O0 SIGN 15 1 NEG Negation of a number 01 NEG 15 15 NEG 15 15 Begin bracket term 01 02 9 2 15 10 2 50 End bracket term 01 Temp02 2 15 10 2 10 2 Power Square root Exponential and Logarithm functions Function Name Syntax Example Result i Power Temp01 2 15 2 225 SQRT Square root SQRT Temp01 SQRT 25 5 EXP Exponential function of basis 01 EXP 5 148
88. ctivated 4 3 1 Connecting example digital input external switch external switch external switch potential free external voltage external voltage up to 42 V H VCC AA Additional bridge from DIN GND to PWR GND at 7o DIN GND 1 GND GND PIN of the Sub D socket This PIN has a direct connection to PWR IN GND with the PRO3 4 PRO5 PRO6 port replicators The inputs are protected by an internal 5 mA current limitation i The digital inputs are electrically isolated but the respective DIN GNDs are all connected to one Required minimum values at the input for a clean functionality 4 3 2 Connecting example digital output external LED or external LED or external relay external relay potential free external voltage up to 42 V max G DOUT COM GND DIN GND external LED or external LED or external relay external relay potential free external voltage up to 42 V max DIN GND GND _ r O DOUT COM VCC Am crc LOG PWR The digital outouts are electrically isolated and can operate bipolarly but the respective COM ports are all connected to one PIN of the Sub D socket Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 32 123 4 3 3 Connecting example external status LED external LED potential free LOG PWR LED 1 gt green LED 2 gt ye
89. d dynamic addresses Create a test configuration Save the current configuration settings in the project icf Export the project as measurement configuration TSTdrive mcf to an individual subdirectory located on your Notebook PC or direct to an USB stick Unplug the USB stick from the configuration PC Switch on the logger Plugin the USB stick while the logger is running in measurement mode yellow LED lights The logger will stop measurement an start data postprocessing existing data will be moved to the USB stick This process lasts as long as the yellow LED is flashing gt Then the logger will search for a new measurement configuration on the USB stick If a new configruation is found the application on the logger will be updated and the origin TSTdrive mcf on the USB stick is deleted gt Wait until the yellow LED lights nor flashes not any longer and unplug the stick The logger will switch to measurement operation again xr ree After all necessary connection parameters have been updated with valid settings logger PC a communication via the LAN cable is supported including these actions gt transfer a new configuration to the logger detect the logger and read the configuration from the logger transfer measurement data from the logger to the PC import measurement files Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 26 123
90. d gateway 0 0 0 0 Preferred DNS server 0 0 0 0 Preferred DNS server 0 0 0 0 Alternative DNS server 0 0 0 0 Alternative DNS server 0 0 0 0 Speed and duplex mode Auto Speed and duplex mode Auto Import Export Cancel Import Export Cancel Settings for dynamic IP adddress Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG Settings for static IP address ipetronik com 27 123 Data logger M LOG S LOG FLEETlog IPElog 3 3 5 Logger system with CAN modules All IPETRONIK CAN modules M Series SIM Series CANpressure MultiDAQ High Voltage Iso DAQ are connected to the data logger with corresponding system cables Connecting the modules Daisy chain the modules among one another and connect the system with its respective cable to the logger The end of the module chain has to M LOG PROS PROS be terminated with a termination plug gt Using M LOG or S LOG the 2nd CAN bus socket has to be terminated also gt use M CAN or SIM CAN termination plug term 620 560 FLEETlog C2 M CAN term 620 429 oer 620 560 002 M CAN term M CANtem 620 429 Xxx SIM CAN tem connectors M CAN resp SIM CAN with S LOG Thus they can be detected and configured by IPEmotion in a user friendly way Besides this it is also possible to connect IPETRONK modules as well as no
91. d signed format as temperature A temperature signal is a CAN message in the Word signed format The value range of 32768 0 32767 16 Bit corresponds to a temperature range of 50 200 Please note that the output range has an offset of 50 This must be respected at calculating b Offset without output offset b Offset output offset Temperature C Raw data Bit x1 x2 y1 y2 m b b 32767 32768 200 50 0 0038147 125 0019 75 0019 Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 116 123 Appendix IP TRON 11 4 Status messages 11 4 1 Most important status messages Following message types are defined Information W Warning E Error D Debug Type number Number corresponds to the number of the type plate of M LOG entry in hw descr xml Wait max 3min for write permission power good M LOG waits until CAPs are loaded status message Power good from PIC If status is Power good data is written to flash If this status is nor reached PIC switches off M LOG after 3 min Power good Message from PIC that CAPs are loaded Debounce remote signal 1000 ms Remote signal must be on at least for 1 s to reach ON status Debouncing of remote signal Hemote signal is detected as such if excitation gt 6 5 V at PIN terminal 15 of PWR IN REM socket Watchdog active PIC transfers control of M LOG to TESTdrive Functio
92. e gt 30 Result 1 otherwise 0 Action 1 and 2 can also be calculations 5 Logic operations comparison of signal states Temp01 gt 02 AND 01 gt 10 1555 15 gt 10 10 gt 5 19 5 10 gt 5 10 gt 10 15 gt 5 10 gt 5 15 gt 15 10 gt 10 15 gt 5 15 gt 15 5 gt 15 Temp01 gt 02 OR Temp01 gt 10 XOR Exclusiv or Temp01 gt 02 XOR Temp01 gt 10 NOT Not NOT Temp01 gt 02 inverse state 1 1 0 1 1 0 0 1 1 0 0 1 1 Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 50 123 Standard functions Function Name ANDB And bitwise IP TRONIK 6 Boolean operations bitwise comparison of signal states Description Example Result Bits which are set in operand1 and in 2 ANB 12 8 2 will be set in the result 11011 ANDB 01100 01000 bit 1 all others will be not set bit 0 ORB Or bitwise Bits which are set in operand1 or in 26 ORB 8 26 operand2 will be set in the result 11010 ORB 01000 11010 bit 1 all others will be not set bit 0 27 ORB 13 31 11011 ORB 01101 11111 XORB Exclusive Bits which are set only in operand1 or 26 XORB 8 18 bitwise operand2 will be set in the result 11010 XORB 01000 10010 bit 1 all others will be not set bit 0 27 XORB 13 22 11011 XORB 01101 10110 NOTB Not bitwise Bits which are set in operand1 will be not 2
93. e Plugin IPETRONIK LOG Detect Initialize Start displaying Options gt Plugins gt LOG j Plugin IPETRONIK LOG version 3 50 mtn sees h ig h er req u res T E STd rive 2 3 5 0 on Frequently used Active Title Version Description Manufacturer Basic settings _ couisiti th e logg e r P ease ate th logg r pe O Connection of IPETRONIK CAN acquisition EK IPETRONIK X 01 03 02 16363 Ethernet devices application if necessary ao ooo a Export ADVANTECH 01 00 00 20913 ADVANTECH bus coupler IPETRONIK Analysis L BY CAN Send 01 00 01 CAN Send with IPETRONIK CAN server IPETRONIK Directories J a CAN Acquisition 01 05 00 26052 CAN Acquisition with IPETRONIK CAN Ser IPETRONIK Units L CAN protocols 01 01 01 CAN protocol acquisition with any CAN ha IPETRONIK Hotkey lt ETH 01 00 00 23897 UDP or TCP socket connection IPETRONIK User administration Download Plugin settings gt Select the main tab Signals Specify the plugins to be used The used plugin version can be changed within the list If a version number is selected that ends with a character no automatic update is run at installing later plugin versions OK Click Detect to identify the connected E hardware components The all available logger s
94. e Result Runs a differentiation of an operand acc to Opr1 t Op1 t 1 DeltaT Calculates the integral of an operand acc to Op1 t Op1 t 1 2 DeltaT Calculates the upper integral of an operand acc to Op1 t DeltaT Outputs the previous value PREV Temp01 4 12 3 25 NV 12 3 Floating average the current value and both previous values Shift value bitwise to the left 1 SHL 2 4 001 SHL 2 100 Shift value bitwise to the right 12 SHR 1 6 1100 SHR 2 0110 Checks the value 0 1 of the defined bit If the TESTBIT 1101 3 1 bit described by operand 2 is set result 1 TESTBIT 1101 1 0 otherwise result 0 Counting order starting left hand with 0 Makes a comparison with a user definable TESTMASKS 27 6 1 bitmask If at least one bit is set in operand 1 and TESTMASKS 27 4 0 also in operand 2 result 1 otherwise result 0 01 A counter that adds the time intervalls of the corresponding sample rate continuously and outputs the sum as long as the operator s value Is gt 0 5 In case the operator s value is lt 0 5 the counter is reseted and 0 is output If no new value is received from the channel defined as Parameter1 within the timeout Parameter2 in seconds the output value is 1 Check for validity 1 if value is unequal to NoValue 0 if value is NoValue Avoid Novalues x if value is unequal to NoValue y if value is NoValue IPETRONIK GmbH amp Co KG
95. e and messages signals are no more identical Each value is measured and saved at the time it actually occurs on the CAN bus c Temp BAD IP_26 80900023 20130629 114253 1813 ZIP Erw Grobe 0 9 3 BAD IF b GUJUUU U 75 3 U4 gE DUL i BAD IP 26 80900023 20130629 114253 04 Vollumfang getriggert 00041813 116 BAD IP 26 80900023 20130629 114253 04 Vollumfang getriggert D0041813 R32 t BAD IP 26 80900023 20130629 114253 04 Vollumfang getriggert 00041813 T64 BAD IP 26 80900023 20130629 114253 04 Vollumfang getriggert 00041813 16 t BAD P 26 80900023 20130629 114253 04 Vollumfang getriggert 00041813 w32 BAD IP 26 80900023 20130629 114253 04 Vollumfang getriggert 00041813 w8 t 26 80900023 20130629 114253 05 GPS 00051813 DAT 6 85 BAD P 26 80900023 20130629 114253 05 GPS 00051813 R32 43 541 BAD P 26 80900023 20130629 114253 05 GPS 00051813 T64 12 441 BAD IP 26 80900023 20130629 114253 05 GPS 00051813 W16 18 661 BAD P 26 80900023 20130629 114253 05 GPS 00051813 w32 6 22 BAD P 26 80900023 20130629 114253 06 Bordnetz 00061813 DAT 1056 BAD IP 26 80900023 20130629 114253 06 Bordnetz 00061813 H6 4760 BAD IP 26 80900023 20130629 114253 06 Bordnetz 00061813 T64 6347 BAD P 26 80900023 20130629 114253 06 Bordnetz 00061813 w32 31 731 BAD P 26 80900023 20130629 114253 06 Bordnetz 00061813 w8 119 011 26 80900023 20130629 114
96. e fully charged data storage to cF card is impossible Measurement data will get lost V wasin lt 9V fort gt 2 min or CEV fort 0 2 5 Pulse duration ignition line 15 gt 1 s If no power off delay is configured the falling edge of the ignition line 15 will shut down the logger immediately If the ignition line 15 signal is applied fort gt 15s during the data transfer transfer will be stopped and measurement will be restarted If the operation voltage arisesto gt after emergency the logger will be switched on again through the applied igniton line 15 signal ipetronik com 112 123 Appendix IP TRON 11 3 Practical examples 11 3 1 Calculating memory footprint The memory footprint per storage group results from the following data Memory footprint of acquisition channels Memory footprint of time channel relative and absolute time channel Memory footprint of header description file Memory footprint of acquisition channels Acqu duration s x storage rate 1 s x channel count x 2 Byte 2 memory footprint in Byte Memory footprint in Byte 1024 memory footprint in kByte Memory footprint of time channel IPE Clock z relative time channel Acqu duration s x storage rate 1 s x 4 Byte memory footprint in Byte Memory footprint in Byte 1024 memory footprint in kByte Do not mix the time channel relative with the time stamp channel absolute Date time
97. e upon request Please find further information in the Classification pdf document Classifying with KIM KAR and DIS on the IPETRONIK CD or at the FTP info server Requirements Hardware M LOG S LOG IPElog Configuration IPEmotion Software TESTdrive V03 06 or 03 18 IPEmotion or V03 50 IPElog or higher It is recommended to use the latest software version for guaranteeing a clean functionality of all components Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 83 123 Options license required IP TRON Configuring statistic classification 1st Step Creating configuration gt Start IPEmotion and load an existing configuration or create a new configuration Import the corresponding signal descriptions CANdb or ASAP2 and or configure additional IPETRONIK devices gt Activate the desired inputs and run the required scaling Select a sampling rate or accept the default sampling rate Please note that the sampling rate which is selectable in the classification cannot be higher than the maximum sampling rate 2nd Step Defining storage group if time related data is also required Create a new storage group with Storage groups and the context menu eU B VESTE Add components to also record the time related signals File Project Signals Acquisition Assign the desired signals to the corresponding storage group Step Defining classification
98. ection has not been activated 5 shown Pressing OK again changes back to standard display Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 92 123 Define status LEDs for limit display The 4 status LEDs can be activated by separate and user defined calculation formulas Additional thresholds can therefore be defined and reaching these limits can optically be signalized In addition the LEDs can be used as Status display for the 4 digital logger outputs To do so the following options are available gt Use the same formula like at the corresponding digital output Status query of digital output to 1 LED ON for the time digital output 1 Systems Mame Active Unit PhysMin Phys Max Senso Mame 2 T al Ha 00099999 M LOG ZC 24 01 02 DIM DOUT LISB COM 1 COM 2 Audic Display L w viEWfleet M VIEWFleet iv Channels E rid Data processing 2 Tolg OO OLE I General Format Scaling Display Calculation Limit value MoVvalue Formula DIN 01 1 FO oO oO oOo oOo Oo nra Setting display modes Select Active to use M VIEWfleet in the configuration configuration is deactivated the logger display has no function This is signalized by the red LED The red LED is also on if the USB port is damaged during operation by disconnecting the cable No further settings can be defi
99. ed by a subsequent written agreement signed by IPETRONIK To the extent that there is any conflict between this Software License Agreement and any IPETRONIK purchase order or other written agreement for the purchase of IPETRONIK parts or products the terms of the purchase order or written agreement control 9 General a If any provision or portion of a provision of this Software License Agreement is determined to be invalid or unenforceable it shall be deemed omitted and the remaining provisions of this Software License Agreement shall remain in full force and effect to the fullest extent permitted by law LICENSEE may not assign or transfer all or part of this Software License Agreement to any third party without the express written approval of IPETRONIK This Software License Agreement will be governed by the laws of the State of Michigan without regard to its conflict of laws provisions All disputes arising out of or in connection with the present contract shall be finally settled under the Rules of Arbitration of the International Chamber of Commerce by one or more arbitrators appointed in accordance with the said Rules Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 9 123 Important and general information P TRON 1 2 General information 1 2 4 About this manual The manual describes the structure of the IPEmeasue data logger devices M LOG S LOG FLEETlog and IPElog as well as peripheral devices a
100. eferred use of the corresponding hardware component at configuring with a signal library The hardware components which are defined with the Not used priority cannot be selected for an acquisition Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 38 123 Configuration with IPEmotion extract P TRON 5 1 5 Creating a support file With the Support file entry of the application menu you have the ability to create a support file and add and or edit own comments and error descriptions DE us S Hs E ws X x Reset Default parameters cf the displaying settings Open Reset templates Select and delete templates New Enter in the appearing Create support file screen an error description Accept the default location for the file To select another location click on the symbol pave Reset formula pool Delete formulas from global formula pool After you have specified the location and a user defined file name click Save to return to the Create support file Save as screen Runtime version _ Create support file es Print k Description View B y D r1 rm m OK Cancel After clicking on OK a zip file is generated that contains the error description as well as the following information gt System information Windows version computer name free memory on the local drives gt Curren
101. er is activated Data format and conversion Traffic data is saved in a binary file with header description and the actual data e g TD001234 bin To generally use the data e g import in CANalyzer data is converted into the ASCII format with the data converter Use the IPETRONIK data converter version 2 xx IPEconverter WIN with graphical user interface requires a license or the version with the command line IPEconverter CMD no license required The software as well as the documentation are saved at the IPETRONIK CD IPETRONIK_SoftwareProducts Tools DataConverter Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 81 123 Options license required Configuring traffic acquisition eU File Project Signals Acquisition v03 51 00 3 AA Mame 4 4 GMLAN GMLAN job based Status OBD 2 Multiple selection IPETRONIK 578021 587008 23 M SENS2 Traffic recording Traffic filter 0 Traffic id trigger Status fr 04 a DN da use First CAN ID hex Active Last CAN V mr Filter 03 0 Filter 04 o B Filter 05 i Filter 06 B Filter 07 0 Lj Mame Active Description V ID Trigger 01 ID Trigger ID Tigger02 ID Triager ID Trigger 023 ID Trigaer ID Trigger 04 ID Trigger ID Trigger 05 ID Trigger ID Trigger 06
102. errun 3 Debounce time of the remote signal 4 Extensions TESTdriveCmd xml 5 Differnt init modes for module initialization 6 Status e mail with snap shot report Limit display with M VIEWvga 8 V TABs enable clear text display Logger Manual 03 51 Release July 2013 Description FLEETlog and IPElog added Traffic measurement now support different storage groups NoMessageLost function NML WakeOnCAN can be activated for each channel up to 6 ID triggers Logger restart using WakeOnCAN or remote signal CAN ID trigger now StartNotStopTrigger instead StartOnly PIC update per job executable otatus indication of the flap for the storage medium with M VIEWfleet Command CCP DISCONNECT implemented Supported with different transfer media Modem WiFi CAN data acquisition based on traffic measurement but handled as signal measurement DAT format for CAN identifiers are supported now Up to 260 characters are allowed for file names of the external library and configuration files Stored as project property with the traffic file Supported as project property Release October 2012 Description Logger PlugIn gt 3 5x requires IPEmotion gt 2 xx M LOG with SC1200 is no longer supported Requires TESTdrive Plugin IPETRONIK LOG 2 3 5x Indicates the data processing status Output 0 OK Ouput 1 processor overloaded Configurable delay time within a range of 0 5 seconds The signal status ist valid if the remote sign
103. es the moving average from n previous measurement values Example MEAN ChannelO1 moving average from all values of a measurement MEAN Channel01 10 moving average from 10 values at a time Tip The diagram shows the differences of the MEAN functions with a rectangle signal clock 5 Hz Square red origin signal Mean Square blue moving average Mean_5 Square green moving average from 10 values at a time Y XN 0 1 2 3 4 5 7 5 g 10 11 12 13 14 15 1 I I 1 0 8 0 6 0 4 0 Square Mean Square Mean 5 Square Linearization Syntax LIN Operand x Node01 y Node01 x Node02 y Node02 Description Runs a linearization with user defined nodes Between n 2 and n 16 nodes can be defined The scaled values Y axis are calculated from the original measurement values X axis using factor and offset of the partial linear slope between two nodes Example LIN Channel01 0 0 5 2 1 4 2 8 2 5 Tip The linearization enables a non linear scaling multipart scaling used for physical graphs without having a mathematical equation Using this multipart scaling an approximation of a mathematical equation is more precise as more nodes are used emerat E x3 y3 ai x4 y4 7 8 2 5 A x y Interpolation point x2 y2 Measured value Linearized value 1 2 3 4 5 7 8 ist linearization segment 2nd linearization segment
104. from CANdb dbc ASAP2 files a2l and diagnostic description files 101 The contents are read and managed by importing the original files into a database Microsoft SQL Server The original files are therefore not longer required Please note at updating the CAN system or the control unit that the current description file must be reloaded to update signal descriptions if required An export of the signal settings changed with IPEmotion into the original description file is not possible File Project Signals Acquisition View Data manager Analysis Reporting h se w ta System Components Export Check Adjust Detect Initialize Display CANdb Access Signal import fram DBC file 03 51 00 30750 RC Active Liew AUTOSAR Signal import from AUTOSAR file 4 28 80002763 A2L Project settiy El rant Act die Import data from a description file CANdb E dbc ASAP2 21 LINdb Idf wd 02 Diagnostics aj Diagnostic import from IDF file id 04 Select CAN input here CAN 01 UDS 2 Select Import from the tool bar Ae mj fear M 3 Selectthe directory and the type of the g Ta decsription file to open E om dbc defines CANdb files a2l defines ASAP2 files amp Idf defines LINdb files LIN Description File cov To import an A2L f
105. ger Data i 4 i 4 Acquire data and write continuously to the buffer memory n Store LLLI el n GER Rua en e Gum und GE The Follow up time not be mistaken for the Post processing time Both settings must be coordinated The maximum post processing time is set with Logger gt Settings gt Data transfer timeout This setting limites the switch on duration after successful Remote OFF signal The logger is regularly shut down after this time even if the data post processing zipping splitting sending is not yet completed The post processing value must be at least 5 min greater than the currently set follow up time Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 45 123 6 2 5 Save trigger channel If Save trigger channel is activated trigger status and some additional information are stored in an implicit channel Word data format in every storage group Bit coded information in trigger status channel Bit No Description Description if bit value 1 0 Pre Trigger Pre trigger time running 1 Between start and stop Trigger signal status This bit is set during the whole acquisition in Continuous acquisition mode 2 Post trigger Post trigger time running 3 Trigger Event This
106. he 30 3 39 8 Updating the measurement application 30 EXI ALC ONIN CO ln m 31 M 12 ne 31 4 2 Remote connection PERIIT ET TNNT 31 4 3 Digital input output 32 4 3 1 Connecting example digital 32 4 3 2 Connecting example digital 32 433 Connecting example external status 33 33 4 4 1 Connecting example CAN 33 4 4 2 Connecting example LIN 33 5 Configuration with IPEmotion 34 5 1 FS T 34 5 1 1 CANO REEL 34 DETE Bi Emm 35 925 MINS WIN MON ate 35 Using INS OOO S 35 5 1 5 Creating eoe EN 39 5 1 6 working areas main navigation 1 40 5 1 7 41 0 Basie TUM M 42 6 1 Switching on 2 0 00 42 o2 dele dne E
107. he brake system and or of the engine and transmission control power train control system Installation of components for remote data transmission mobiles GSM GPRS modems WiFi and Bluetooth components 4 Before directly or indirectly using the data acquired by an IPETRONIK measurement system to calibrate control units please review the data regarding to plausibility 5 With regard to the application of IPETRONIK products in vehicles during use on public roads the manufacturer and or registered user of the vehicle has to ensure that all changes modifications have no influence concerning the license of the vehicle or its license of operation 6 User does agree to the instructions and regulations as mentioned above In case the user does not agree with the instructions and regulations as mentioned above he has to notify this expressly and immediately in writing to IPETRONIK before confirming the sales contract 1 1 2 Liability Warranty Copyright License agreement Limitation of liability Any liability of IPETRONIK its representatives agents and the like especially with regard to personal injury or damage to property of any kind shall be excluded within the legally admissible framework as far as the instructions and warnings as mentioned below have not been followed Warranty Products accessories and services have a 24 months warranty All product data specifications drawings etc correspond to the current condition
108. he identifier the higher the message priority Amessage can transport up to 8 8 Bit 64 Bit 8 Byte user data whereas each message requires 110 Bit or 130 Bit Extended ID Depending on the hardware and the bus line length up to 1 MBit 5 can be transferred The following important conclusions result from the properties above The less the bus load the less the probability of a Bus access conflict you can call this a real time capable area high bus load forces stations to loose messages with a high identifier or to send them more slowly Messages with a high identifier can get lost Notsent messages are only registered by the Recipient node because data are missing If no timeout has been defined the last valid value is generally sent i e a mistakenly constant value Transfer rate Bus line length The CAN bus supports a max transfer rate of 1 MBit s according to Norm ISO 11898 2 This value is limited in practice by the following points the bus line length the branch line length to the CAN stations the bus lines quality and the plug contacts bus line design twisted single or two wire bus gt bus connection structure and type and strength of external perturbations If CAN messages not completely used e g only three 16 bit values instead of four per message less data can be transferred although the sum sampling rate has not yet reached the maximum T
109. hicles as well as entire vehicle fleets can be managed from one or several bases Due to the worldwide good to excellent GSM network coverage regional and global test drives can be managed from any base 8 4 4 Transferring data using GPRS and Internet to FTP server GPRS3G C DMA Internet NS User 1 Upload v current configuration mesurement data v NN User 2 Download new confi guration User 3 Node point of the Internet Server PC with GSM network server internet access Components M LOG S LOG FLEETlog WAN IPElog M LOG S LOG with GPRS data transfer option with COMgate WAN antenna data transfer software or with modem antenna data transfer software Connecting cables SIM card for modem depending on provider Functional principle A logger in measuring mode continuously stores data as defined in the configuration If the test series is completed status of remote signal is inactive e g terminal 15 data is packed and transferred via GPRS in GSM network to the next node point This data is then transferred via internet to a FTP server for being available for download All data transfer settings are defined in the IPETRONIK software Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 88 123 Options license required IP TRON 8 4 2 Transferring data using Wireless LAN to netzwork server WiFi Local Network User 1 ser WiFi Client i User 3 WIFi Net
110. his also applies if different sampling rates are defined in one system because the data division to the CAN messages is not time optimized minimum time required Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 15 123 23 Ampacity and voltage drop Besides the fact that the max bus line length is defined by the desired data transfer rate the ampacity and the voltage drop in the system have primarily to be checked This is especially important for systems with a high number of devices and or long connections lines of the devices e g distributed systems with connection lines of 3 m 9 84 ft and more between the device groups Additional actions should be taken accordingly to the situation 2 3 1 Ampacity The maximum current via the M CAN system cables e g 620 560 xxx is 4 A heat generation by transition resistances of the plug contacts The system capacity and therefore the power consumption can approximately be calculated by using the number of devices including the sensor supply A direct power acquisition in the real system provides exact values We recommend one or several of the following actions if the limit value is exceeded gt Increasing the supply voltage of the devices e g 24 V DC power supply or 42 V DC instead of 12 V gt Centered voltage supply via T connection or as close as possible to the devices with high power requirements rather than at the beginning or end of the system chain
111. ile select the Ee ica we communication protocol first ety i Confirm with OK 4 The imported signals Pool are displayed Status 11 a table General signals at CAN 01 cannot be configured if CAN 01 is already used for IPETRONIK devices Importing signal descriptions from ASAP2 or CANdb is the easiest and most secure method to configure signals Signals can also be manually created at an input without description file Select Add components Standard CAN from the tool bar within the Signals navigation tab Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 75 123 Options license required Import CANdb file View Datamanager Analysis Reporting Eton Access Pu Active Unit AUTOSAR Signal import from ALITOSAR file A2L Signal import from A2L file Diacnosti Diagnostic import from IDF file Ups Signal import from XML file Synchronize Search in C Users Public Documents IPETRONIKVPEmotiondmport D E m Name Size Changedom Extension 25 109 137 2128 05 06 201309 59 42 SR EAE Nee m eck P 4 File name IPEmotionDemo DBC File type CANdb dbc Show system files Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipet
112. ion regarding to the usage of the parameters The screenshots below show the implementation of the external file in IPEmotion configuration Systems Type gt 4134 80001469 M LOG 4 20 1 B A Z2 CANO D X34 0 04 0 DIM 4 S DOUT 4 g 0 4 ETH Ol m CP service Dl COM 1 COM 2 0 Audio 0 Display 0 Data processing Status Local stor 0 Local calc 0 Systems Mame gt a g 90001469 1 0 4 20 aM D CAN O2 0 M OS 0 SW 0 O4 DIN 4 4 USB D 4 643 ETH 0 p 1 SCP service D comi cow 0 D LA Display 0 4 rog Data processing lz Status 12 ER Lacal storage groups Local calculations 0 External programs Logger_Manual_V03 51 EP statistic E External programs Add components Change into Extras Import b Export b Use as default Cut Cr x Copy Paste Paste behind Delete lean Properties A components Change into Extras Import Export m Use as default Cut ChrH X Paste Paste behind Delete ear US Properties IPETRONIK GmbH amp Co KG Event handling b 2 Multiple selection Select Data processing in the left Systems overview Select Add components gt External programs from the tab menu or from the context
113. ist or polling Communication via CCP protocol takes place by sending the data cyclically or triggered by an event after the first inquiry The send rate is defined in the respective DAQ list e g 10 ms 100 ms or synchronous to an event Not all control units support this mode or the DAQ lists are not included in the A2L file In this case the signals can be sampled individually with the polling mode But this method causes a much higher bus load and therefore longer response times 8 2 3 Traffic acquisition The CAN traffic acquisition also CAN Trace allows high capacitive recording of CAN messages total bus traffic with the CAN controller of each measuring input Due to the fact that a huge amount of data can result from this method within a short time data acquisition can be restricted with 20 definable admission filters Every input has 2 ID trigger to control the traffic acquisition start Filters and triggers With selecting the respective branch the available filters are displayed in a table You can now define the ID areas of the CAN messages which are saved at meeting one of the trigger conditions 2 ID triggers are available within the traffic properties in the dialog As soon as one of the trigger conditions is met OR operation all filtered CAN messages of the CAN inputs are saved A condition can be defined for every data byte within the ID trigger CAN message Only if all conditions are met AND operation the trigg
114. ivates the non licensed functionality and warns with the red status LED If an extender is used at the logger an aaditional license for the extender is required The system shows the following warning if an extender is used with a non licensed CCP protocol 16 02 2011 15 36 01 E Extender 80200011 Error reading XML Buffer at line 11 Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 118 123 Appendix IP TRON 11 5 Description of TESTdrive files TESTdrive provides the measurement files as zip archives TESTdrive creates separate zip files for every acquisition MEA xxxx zip Acquisition data header file current configuration LOG_xxxx zip Protocol file for data acquisition A data set of an acquisition always includes a header file AABBCCC DAT at least one acquisition file in DIAdem format as well as the corresponding acquisition configuration e g IPEmotion isf The names of the single acquisition files are generated according to the AABBCCCC DDD structure After reaching the consecutive file AA number 9999 CCCC counting starts again with 0001 BB Consecutive number within a data type If the with this number still exists it CCCC Consecutive number of an acquisition TE T DDD File extension AA data type indicates the type of data DO Data Online storage group with time channel PM Post Mortem data of a ring buffer group storage group with time channel
115. lculation for validity i e if the variable s status is invalid NoValue With the VALID x function the result is1 as long as x is valid and changes to 0 as soon as the x has the status NoValue With the VALID x y function the result is x as long as x is a valid value As soon as x will be an invalid value NoValue the result changes to y In case y is a variable instead of a constant the result of VALID x y will be NoValue as soon as x as well as y are an invalid value VALID Channel01 1 if Channel01 NoValue 0 if Channel01 NoValue VALID Channel01 4 Channel01 if Channel01 NoValue 4 if Channel01 NoValue When using a measurement value within a recursive formula x x y we recommend to use the VALID x y function in order to avoid invalid values NoValue Even if the measurement signal becomes valid values the recursive formula will not be calculated correctly once a NoValue occurred We recommend to use the VALID x y function for any signal which serves as a trigger for a storage group An invalid trigger signal could prevent the start of the data storage even if the trigger signal will become temporarily valid Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 56 123 Mean value averaging MEAN Syntax MEAN x n Description MEAN x continuously calculates the moving average from all valid measurement values MEAN x n berechnet continuously calculat
116. les This function requires a selected list type The end of every acquisition includes the End Shift xxx query If it is confirmed with OK all previous partial acquisitions of one file are merged and the number for the next measurement file is increased by one If this function is not activated an own file is written after every acquisition stop and a following acquisition is recorded with a new number Confirm shift track at stop A selected list type is required for this function and Merge measurement files must be activated The query runs after acquisition stop End Shift xxx Yes OK Track is stopped partial acquisitions are merged in one measurement file No OK Track is continued at next start with same measurement file The query runs after acquisition start Shift xxx Good Trip OK Currently saved track is continued with new acquisition file Change OK Track and driver can be selected again If nothing is entered after a query an acoustic message sounds after 20 s and the saved settings are accepted for the next acquisition V Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 94 123 9 2 M VIEWgraph Important advice for mounting If mounting with a suction pad holder the bottom of the display enclosure must be additionally fastened with Velcro tape to an underlayer board e g dashboard Free mounting only with the suction pad holder is not permitted for test drives M VIEWgraph is an alphan
117. llow LED 3 red nay MA SMD 0 1 A DIN GND CAN input Vehicle 4 4 Bus inputs CAN H 4 4 1 Connecting example CAN bus CANL GND Shield Chassis 4 4 2 Connecting example LIN bus Due to the galvanic isolation the transceiver of the LIN measurement input must be power supplied by an external source This can be 1 Connection of the vehicle s bus power supply Vesuppiy or 2 Connection of the logger s power supply bridge from PIN 5 to PIN 1 Variant 1 Connect of the external LIN bus eb Lem ier 1 I i ll a dl j DL EET a j li i i ll 1 Ta Lm i a i sto i E m us RN Lik oji mte gr tw s E Lh l 7 1 l kh di j Il 3 m 4 l SUBD 9 CANS LIN1 Land unt PINSI SUbD CAN4ILIN2 2 Senna gene cme an IR oat dat ie iig ut 5 dum CAT LOL ERSTE AT Se AMZIT GNDULINT IERD ami AMT H Zw OH PR ES T GRD T O 51l oni E Db Variant 2 Supply via logger bridge from PIN 5 to PIN 1 FUR ANI T GHOSWLINT END SC 7 DI
118. ls with equal acquisition rate P IPEmotion options ce Frequently used Time channel Format Relative Basic settings 3 Absolute Appearance D ata manager Merge time channels with equal acquisition rate Analysis Select the points per diagram graph Define if all signals are considered in the analysis diagrams at drawing the graph or only the samples Move the bar accordingly to the preferred speed or quality P IPEmotion options equentlh use Points per diagram graph Basic settings Speed Quality Appearance Data manager Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 37 123 Configuration with IPEmotion extract T RO N Units Get an overview according the common physical values and their respective unit and edit them P IPEmotion options x Physical Factor Unit E Basic settings Appearance Mass kg Data manager Time 5 Analysis Electric current Cll Temperature pus MAL Plugins Molar amount mol Activate this Plugln for all logger applications The corresponding TESTdrive Plugins version must be available at the Activate or deactivate the hardware systems to be used LE IPEmotion options Active Title Versig Description Manufacturer Basic settings s IPETRONIK CAN 1 07 00 Connection of IPETRONIK CAN
119. lt NN SN Enclosure protection class IP30 Port replicator selectable lt lt Removable data storage media Configuration with IPEconf 4 lt lt Configuration with IPEmotion Data transfer range of built in modems IPElog Frequency range Quad Band EGSM 850 900 1800 1900 Download rate HSDPA 7 2 Mbps UMTS HSDPA WCDMA FDD 2100 MHz GPRS multi slot class 12 Edge multi slot class 12 Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 18 123 Data logger M LOG S LOG FLEETlog IPElog 3 2 Hardware 3 2 1 Block diagram The block diagram shows the basic structure of the logger board Modem PWR DICE REMOTE M PWR GPS PWR COM 1 COM2 LAN W LAN USB Keyboard USB Stick USB optional CHN 1 CHN 2 DIG OUT 0 3 CHN 3 CHN 4 DIG IN 0 3 CHN 5 8 MIC Headset Ethernet M LOG with port replicator PRO5 S LOG front view FLEETlog front and rear view The M LOG enclosure is compatible to all M devices The devices can be easily connected with each other with a dovetail adapter M LOG is available with 6 different port replicators cable connecting adapter User specific port replicators are available on request S LOG uses a SIM standard enclosure and can easily be integrated into a SIM devices system Both loggers can be connected to M devices as well as to SIM devices also mixed with suitable mech
120. m Phyy 5 Enter the value to be interpreted as Name 2 7 in the Format tab Value out of the valid m la ango 45 80002367 2 pwo2 0 1 Enter the value range and the decimals in Project settings 0 4 DIN 03 0 1 Display tab 44 CANOL DIN 04 n 1 Define the lower and upper limit value with CAN 02 Limit value ius Enter the output display of invalid value with CAN 04 NoValue Aj General Format Scaling Display Limit value 158 o Q EH ol Active cow 0 DIN 01 cow 0 en re Description Define external trigger e g for a storage group Audio o ae E Display ol Reference D 0 00 236 7 Hidden proces 12 Sampling rate 1Hz Status k Storage groups Mail groups 0 LIO o UM m Activate the Signals tab gt 6 5 Xe 4 5 Select DOUT the system overview Activate the desired digital outputs Enter a name and a description in 8 amp z General tab 29 i ES 2s aa 5 Enter the value to be interpreted as NoValue ai E AER Heec wipe in the Format tab Value out of the valid range Enter the upper and lower acquisition range V03 51 00 30750 RC cti Unit PhysMin Phys with Scaling
121. me accuracy due to increased sampling rate oversampling gt clear comparability of different signals using a synchronization clock Master Sample Clock MSC protocol measurement during data acquisition using bus systems is possible CCP XCP FlexRay bus signals are allocated to the respective time grid sampling rate time differentiation of two signals is not possible in the time grid sampling points without real signal value are indicated with NoValue invalid in data set Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 68 123 Amplitude 7 9 3 Event controlled data recording of bus signals Ap 12 06 0 12 06 95 1507 Mrs 107 05 uU x P d LI L e fi e 44 26 3 no signal 2 NS s 8 75 21 25 36 25 45 57 50 67 50 77 50 115 126 25 140 152 50 166 25 177 50 Time Signal value with time stamp from the respective CAN message Features of event controlled data recording Plugin IPETRONIK LOG event controlled recording without fixed time grid for bus signals e g CAN bus all signals of a message are provided with an exact time stamp as with traffic measurement individual time channel for each message in measurement data set discontinuous recording without defined time grid suitable for measurement of bus signal differences and of sporadic or
122. n Testdrive cyclically describes a storage range in Powermanagement PIC toggling bit If this toggling fails for more than two minutes M LOG is switched off by Powermanagement PIC Free disk space xxx xxx Indicates the available total memory space TestDrive 3 09 shows a Free disk space xxxx at the left bottom display window It shows the available space for data storage 4096 of total memory space Initially this value fluctuates intensively but stabilizes with a longer acquisition because it is recalculated permanently Time left xx xx xx xx Display bottom left in monitor window Meaning d hh mm ss Power bad If excitation is too low status is Power bad Info This message is not concerned with CAPs contrary to Power good message Can t initialize communication mediums Dev conf xml is not included in Config i e no data transfer activated Shutdown in 55 min If data postprocessing zipping establishing data transferring data sending etc is not completed within 55 min Testdrive shuts down and data remains on logger Emergency shutdown in 60 min Logger is unconditionally shut down after 60 min Powermanagement of M LOG controls the device Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 117 123 Appendix IP TRON Time left Display bottom left in monitor window Meaning hh mm ss Power bad If excitation is too low status is Power bad Info This
123. n IPETRONIK CAN modules to a free CAN measurement input Please note that you need a separate cable to supply the modules with power for this Configuration of the modules is done manually or by importing a file e Usually all IPETRONIK CAN modules are connected to the logger through the system Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 28 123 Data logger M LOG S LOG FLEETlog IPElog Detecting modules creating test configuration V03 50 00 Name 4 80001707 IP TRONIK Select the CAN input to which the devices are connected to CAN 01 is recommended because it is connected with the M CAN or SIM CAN S Project settings 0 socket at the logger eS Select Extras from the context menu right iM Add components J mouse button EIE NOS chance ris Select Detection to detect the connected dM lt in devices and to transfer the current settings to the pm E configuration DOUT 0 Import E Extended properties f Multi AA ie datantad CAN Aauina USB Export mnm Execute Detection of connected modules as described gt Configure the modules and the logger activate channels set signal scaling select sample rates create storage groups Save the current project ea w Initialize the Logger working Ethernet connection required or transfer the configuration per USB s
124. n filter for reducing the data volume ff Admission filter for reducing the data volume ff Admission filter for reducing the data volume f Admission filter for reducing the data volume FA Admission filter for reducing the data volume Operator for Byte 1 Value for Byte 1 hex Data for Byte 1 hex Off 0 ff Off 0 ff Off 0 ff Off 0 ff Off 0 ff Off 0 ff 4 IPETRONIK GmbH amp KG ipetronik com 82 123 Options license required IP TRON 8 2 4 Statistics calculation The frequency of signals is counted and evaluated with classifications To do so the acquisition range is divided into equal equidistant zones classes The current values is assigned to one class at every sampling and the frequency is counted see figure Measuring signal Classification 6 Frequency Advantages Disadvantages Much less storage required than with a time No original value related acquisition Very suitable for statistical analyses e g life time reference of the signal cycle tests Classification methods Different classification methods have been developed in the past whereof IPETRONIK supports the most common methods acc to DIN 45667 FVA sheet gt Random sampling counting Level crossing counting gt From To counting Edge counting gt Rainflow method availabl
125. nctions as New Open Save Save As Runtime version Print and Close as well as further properties such as View Options Support file and About New Open Save The right partial view of the application menu contains a list of the recently used projects Save The Print function is implemented with limited functionality and not yet localized Runtime version The View function contains the menu points Message window and the Reset command Show or hide the message window and reset the displaying configuration to the default parameters Compare Print k View b 5 1 4 Using the options With the Options entry you have the ability to edit user defined settings You can define the following options Administration p Options Frequently used About Basic settings Close c B ie gg View Data manager Analysis Units Plugins The following section offers you a detailed overview over the available setting options Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 35 123 Configuration with IPEmotion extract P TRON Frequently used Activate or deactivate Start with the latest configuration and define the settings for the automatic hardware detection Activate or deactivate the automatic hardware detection at start of and select a possible standard command after successful detection gt Guided configuration gt Automatic configur
126. nd accessories components 1 2 2 Version This manual has the version number 03 51 01 released August 2013 All rights reserved IPEmotion Plugin IPETRONIK LOG Contents described in this document relates to the current release version 03 51 01 o To run this Plugin an IPEmotion release gt V02 00 has to be installed on your computer IPEmotion Contents described in this document relates to the release versions 01 09 to 3 03 1 2 3 Legend of used icons Q Tip This icon indicates a useful tip that facilitates the application of the software Information This icon indicates additional information for a better understanding Attention This icon indicates important information to avoid potential error messages Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 10 123 Important and general information 1 2 4 New features Changes IP TRONIK Please also refer to the latest release notes at c Program Files x86 IPETRONIK IPEmotion Plugin IPETRONIK LOG V03 5x xx Help Plugin IPETRONIK LOG 03 51 No Feature 1 assignment 2 Traffic storage groups 3 Extension for IPElog requires PIC gt 01 01 07 FPGA 2 V01 02 08 4 CCP Upload and download 6 Event controlled measurement Masks 8 File name length 9 Stop date Stop time 10 PreTriggerTime PostTriggerTime Plugin IPETRONIK LOG V03 50 No Feature 1 Notes Version reference SC1200 IPElog 2 Status signal FIFO ov
127. ned without activating M VIEWfleet If an existing M VIEWfleet General Mode Display 4 M VIEW Fleet M VIEW Fleet EOM err m Bu Channels 4 LEDs 4 List type Data processing pz Allow start and stop of acquisition QW Status 12 Merge measurement Files ER Lacal storage groups 0 ix Lacal calculatians Confirm shift track at stop Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 93 123 Scroll mode Off Manually switching lines with Up Down 55 Continuous line switching in interval of 5 s display moves line by line from the bottom up in order of signal list List type Off Neither track nor driver defined Track Track selection by driver is assigned in data Track driver Track as well as driver are selected before start and set in data The text file of the track selection list is defined in MPETRONIKWPEmotion MAL PlugIn IPETRONIK LOG V03 xx xx Data MViewfleet MVIEWfleetTracks txt The text file of the driver selection list is defined in IPETRONIK IPEmotion MAL Plugln IPETRONIK LOG V03 xx xx Data MViewfleet MVIEWfleetDrivers txt Changes of the entries can manually be defined in the respective text file Allow start and stop of acquisition Pressing the menu key stops the data storage and the current measurement file is closed Pressing the menu key again starts the next data storage and the number of measurement file is increased by one Merge measurement fi
128. nostic file je amp Signals Acquisition View Data manager Analysis Reporting _ A D Signal import from DBC file 4 AUTOSAR Signal import from AUTOSAR file A2L Signal import from 21 file UDS Signal import from XML file Synchronize Import from XML file Search in C Users Public Documents IPETROMIKWPEmotion Import 10 G Size Changed on Exte a IPEmationDema id 15073 05 05 20317 IPEmotionDemo_KWPonCAN idf 5474 03 05 2013 17 df IPEmotianDemo LDS idf 8013 03 05 2013 17 File type Diagnostics idf _ Show system files Open Cancel Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 80 123 Options license required IP TRON 8 2 2 Detection mode and cycle rate 10 ms sync event channel Polling 100 ms sync event channel Polling functionality is supported by A2L for CCP and XCP i e no DAQ lists are se eu Slade required IPEmotion offers three different speeds for data requests The times are reference values because the values must be individually requested at the control unit and create a high bus load SLOW 1000 ms MIDDLE 100 ms FAST 10 ms Example If 5 values are detected in the SLOW polling mode the 1 value is requested by the control unit a 2 time after approx 6 s DAQ l
129. ns 1046 406 N Japo 8 NVO d VA 5849 1 GN9 1n0 8Md 9 QN9 t H13 XH tHl3 t 2 1 0 p05 aDueJo jod 90 owe 589 1 GN9 1n0 8Md 98 QN9 1n0 HMd 9 9 5 XH IHi3 f X8 CHl13 XH IH13 t XBH CHl3 t 1 1 1 1 13 1 X1 THLI L ssiam jod J 40 owe 0 lt 04 90 owe uns 104 6 qqns 9 NVO 1n0 8n26 LNYO NI LLVSA vondoze H LNWO 2 GN9 LNO Md 9 NVOUOEM SNYO NI LLV8A uondosc H SNWO GNS S ENVO E 1 2 2 1 SNVO 1 ugs 1046 0915 G NVO WOO LNOG S1 t 1n00 l 1n0G l c 1noaszi L 1n0G 11 GN9 NIG 0I 101 6 031 6 2188 z a31 8 un15 1 a31 24 901 lt 9 5 NIO 6 6 lt L NIG L yas 1046 LGSVLNOGINIG ues asa J Dect DEZ zuana xeuj 2 VOL 2 98 0 2 07 NI I LN3SS 1O 108 123 ik com tron ipe IPETRONIK GmbH amp Co KG Manual V03 51 Logge Appendix 11 1 2 FLEETlog bunDejeepunuupizz uN 07207951 cl 0 588 19
130. ny data can be sent also values from calculations or status IE E signals The information about the signals to be sent can be exported with CANdb At least one CAN participant must be connected to the CAN interface to transfer data to the CAN If this is not the case TESTdrive sends the following error E Error sending CAN message in CANSendWorkStation Counter 1 Options Start CAN ID Enter a start ID The first signal uses this CAN ID any further signal gets an ID raised by one If the sending counter is activated it is ouput at the start ID gt TESTdrive 3 11 supports maximum one channel 2signal per ID gt With TESTdrive 3 13 several channels can be assigned to one ID It won t be possible to define one ID for a specific channel Itis possible to use Extended ID Send rate It is possible to define the send rate The following settings are permitted 0 5 1 2 5 10 20 50 100 Hz If the send rate is greater than or equal to the source channel rate the following message is written into the TESTdrive log file D ERROR in CCANSendWorkStation Put Fifo full Send counter If the send counter is activated a 32 bit value beginning from 0 is incremented for every send cycle and output at the start ID All channels are moved for one ID Example Start ID 256 Name ID Value 1 cycle Send counter 256 0 Channel 1 257 0 01 Channel 2 258 0 08 274 cycle Send counter 256
131. of the indicated creation date For the purpose of optimizing technical processes and production some details of our modules and accessory components may be modified at any time without prior notification Although the present document has been prepared with the utmost attention to detail it may not be exempt of misprints typing or transcription errors These errors are not covered by any warranty Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 6 123 Important and general information P TRON Copyright and Duplication All rights reserved to GmbH amp Co KG in particular those of property copyright and trademarks The rights related to any third party trademarks mentioned in the present document remain unaffected This document may not be duplicated partially or entirely without the prior approval from IPETRONIK GmbH Co KG graphics and explanations are copyright protected Any use beyond the scope of the document is prohibited Software license agreement This software is property of IPETRONIK GmbH amp Co KG and is protected by copyright laws Its total or partial reproduction is strictly forbidden A valid software license is required to use the software IMPORTANT READ CAREFULLY THIS IS A LEGAL AGREEMENT BETWEEN YOU LICENSEE AND IPETRONIK GMBH amp CO KG IPETRONIK INC IPETRONIK BY CHECKING 4 ACCEPT ALL OF THE TERMS CONTAINED IN THE ABOVE AGREEMENT DURING INSTAL
132. ogger off gt Press longer than one second Green LED shows the status of the switch on command LED on REM2 ON Terminal 15 should not be used with the On Off key because only one operation is supported either with the On Off key or with terminal 15 Mixed operations with both remote functions are not possible Operating status LEDs Hed 1 Error 2 Logger is booting initializing M VIEW Green Operation M VIEW detected by logger Value status LEDs The 4 status LEDs can be controlled with calculations Additional limit violations can therefore individually be displayed 9 1 2 Configuring M VIEW fleet Select Display in the tree structure gt Select Add components gt Select M VIEWfleet 4 Display 4 M VIEW Fleet M VIEW Fleet 4 4 General Select the desired signals Channels 4 LEDs QV Channel f Add components Confirm the desired signals with OK 2 Display 4 General Settings 4L x M VIEW Fleet M VIEW Fleet 4 Transfer From channel configuration EDs 3 Manual 0 rm Data processing 12 Define the alarm values for the upper and lower signal limit if desired If the current signal reaches the alarm limit the display changes into the message window and the buzzer sounds Clear the alarm with OK Activate the detection of the minimum and or maximum values for the respective signal With pressing OK the display changes into showing the minima and maxima If the det
133. on modem or WiFi option 3 2 5 External fuse for logger protection IPElog M S LOG FLEETIog Depending on the number of inputs capacitor charge and connected devices M or SIM devices Modem GPS receiver the total power consumption especially at temperatures of 40 40 F can reach up to approx 150 Watt To protect the total system we recommend an external overload protection with the following tasks Protection of the supply line in error case Overload protection of the current source Logger protection We recommend using a LittleFuse ATO Fuse Fast Acting Type with a nominal current of 10 A At using the maximum charge in ambient temperatures under 40 40 F it can be required to increase the nominal current to 15 A m 5 individual electric circuits also see M LOG replicators S LOG 5 are internally protected The internal resistance of multifuse types increases exponentially and limits the current to a minimum After clearing the cause of error the resistance decreases to the normal value automatic resetting The motherboard fuse does not work reversibly and must be replaced in the case of a required repair Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 22 123 Data logger M LOG S LOG FLEETlog IPElog 3 2 6 Additional short circuit protection for IPElog and FLEETlog As the M CAN connection is not fused by the logger
134. onal files for error memory and non recurring data This CSV file BDJDcccc CSV is an overview and includes all information about the completed jobs Every successful job is saved in a binary file BDS1cccc Jxx which contains the actual data A CSV file as well as the corresponding jobs are created after the completed acquisition of UDS services A CSV file is only created in binary mode not in trace modeT The names of the single acquisition files are generated according to BDPECCCC DZZ structure BDPECCCC DZZ with P U UDS protocol P KWP protocol BDPECCCC DZZ with E ECU number 1 9 BDPECCCC DZZ with D J Job or binary file D T Trace file BDPECCCC DZZ with ZZ Job number 01 99 Beispiel non recurring data Acquisition no 699 gt BDPECCCC DZZ Trace file BDU10699 T01 UDS protocol ECU no 1 Acquisition no 699 Job no 1 Binary file BDU10699 J01 UDS protocol ECU no 1 Acquisition no 699 Job no 1 CSV file BDJD0699 CSV Job overview of binary files Measurement status file Measurement status file in XML format offers information about the process of a completed acquisition This includes Acquisition start and stop in standardized XML format DataTime General system information hardware TESTdrive version Storage group trigger Acquisition Diagnosis information Limit violations Maneuver detection Measurement status file is created after acquisition stop and i
135. ong 104 Sd9 IW3GOW CWO2 LWNOO2 x1no anse ENVO NI LLYGA Uondo g H ENWVO L GN9 HMd 9 NYOUOEM ZNV2O NI L1v8A Uondg s mn GN9 LNIT QN9 Z NV2 1 2 1 2 2 1 uns 109 6 agns NVO ie NVO 1no asn 8 NI LLV8A 8 2 GN9 HMd 98 NYOUOEM ZNVO NI L1vV8A uoudosc 9 2 QN9 8 CNV2 1 T ONVO L uns 104 6 0915 9NVO 1no gan 6 LNYO NI LLVS8A 9 lt H INWO 2 9 SNYO NI LLYSA uondosc H SNV2 ON9 G LNYO 101 9126 unJb TSNVO I aal ugs 104 6 aans G NVO L NVO asn WNO2 1noas si t LNOG F1 1n0G t Il c 1noaszi L 1n00 211 01 101 031 6 3198 031 8 un18 31 payoyms uano o vro ano an DeET IE O Ez VOL 2 98 2 07 NI LN3SHSD XVIN 107 123 ik com tron ipe IPETRONIK GmbH amp Co KG r Manual 03 51 Logge IP Port replicator PRO8 4x Sub D 9 ETH PWR IN REM 1B 6 pin PIN assignment PROS Appendix wnjeg buniepuy 19 8A HI p SNvOvOEMI e 90d 80000999 T mT Lu UU e 18940 uw ume
136. onous for all inputs within a card 8 1 1 CAN cards The following CAN cards with galvanically isolated high speed inputs acc to ISO 11898 2 and low speed acc to ISO 11992 1 are available 2xCAN High Speed WakeOnCAN functionality active data preprocessing and message buffer 4xCAN High Speed WakeOnCAN functionality active data preprocessing and message buffer gt CAN High Speed WakeOnCAN functionality active data preprocessing and message buffer 1 x CAN Low Speed 5 V fault olerant CAN High Speed WakeOnCAN functionality active data preprocessing and message buffer 1 CAN Low Speed 24 V 8 1 2 CAN LIN cards The following CAN LIN combination cards with galvanically isolated inputs are available 2 High Speed WakeOnCAN functionality active data preprocessing and message buffer 2 x LIN 2xCAN Single Wire GMW 3089 V2 1 2 x LIN 1xCAN Single Wire GMW 3089 V2 1 1 x CAN High Speed WakeOnCAN functionality active data preprocessing and message buffer 2 x LIN 8 1 3 Ethernet cards The following ETH card with galvanically isolated inputs is available 2xETH 10 100 MBit LAN e g as input via XCPonEthernet or FlexRay Ethernet converter Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 74 123 Options license required IP TRON 8 2 Software options 8 2 1 Import signal description files IPEmotion supports the import and management of signal descriptions
137. p Co KG ipetronik com 29 123 Data logger M LOG S LOG FLEETIog IPElog Using a LAN cable connection Import measurement files log files 3 Select Signals navigation tab Project Signals Acquisition Data manager Analysis Reporting i Select logger in the left Systems overview R 4 za Transfer the current data internal E 54 lal memory the Signals navigation tab to LI O 624 PC with Import gt Measurement files Add system Add components Import Export Check Adjustment Detect di ieu Aur Transfer the current data internal memory pre post trigger data in the Signals o NC SAM Reiter navigation tab to PC with Import gt 50 00 Phys Measurement files incl ring buffer To Transfer the current TESTdrive log files in Name Measurement files incl ring buffer 3 ADAC TESTdrive Measurement files including the Signals navigation tab to PC with BEI ring buffer i Import gt Log files Praject settings Log fies i Select the target directory or crate a new TESTdrive log files folder to save the respective data t 1 1 2 m 3M 0 z With USB stick Plug in the USB stick to the running logger The logger stops data acquisition saves data log files and the related configuration to the stick If the yellow
138. ports 7 2 only at CAN 2 I 8 VBATT IN WaOnCAN at 2 _ i g UgB OUT at all CAN inputs special version i 7 4 2 ON via WakeOnCAN OFF via Switch off condition With a configured Switch off condition the Timeout setting has no influence The logger stays in operation mode as long as the Switch off condition is false General Extended System Data manager Switch on condition Wakeonca Switch off condition DIM 01 1 ES Timeout 1 min with the falling signal edge and the logger is switched off when postprocessing is finished e If a temporary remote signal duration 1 s is identified in this mode the Follow up time starts even with a false Switch off condition Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 61 123 7 5 Output signals via Status signals BEX Bi Projekt Signale Messung Anzeige otatus signals can be used in one configuration in the same way as measuring channels Status signals can be added e g into calculations triggers or storage groups j System Komponenten Import Requirement CAN board with FPGA version gt 1 04 00 hinzuf gen hinsuf gen Erkennen IPETRONIK CAM Standard CAN CAN Send CAN Senden A CAN input in a logger configuration can be used to send CAN Traffic Aufzeichnung data Mehrfachauswahl A
139. r Manual 03 51 IPETRONIK GmbH amp Co KG 72 123 ipetronik com 7 9 5 Practical example Determination of the latency of two signals Task An electronic system ECU receives messages via CAN bus input signals and sends them out again on the CAN bus e g as forwarding or after calculation output signals Processing time response time of the system is to be determined im Jude ID17 1019 ECU pas Realization The response time results from the time difference between input and respective output signal Since both incoming and outgoing CAN messages are provided with a time stamp the exact time difference can be determined through event controlled measurement Advantages No event gets lost not fixed to a sampling rate or to several signals within one sampling interval Unique time stamps from TESTdrive are used gt Event controlled measurement is based on traffic measurement gt traffic group gt Each ID generates an event with a new signal value Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 73 123 Options license required IP TRON 8 Options license required 8 1 Hardware options internal M LOG and S LOG can be extended by 3 slots with different IPETRONIK cards 3 cards can be combined depending on the assignment to the extension slots and the port replicator The active CAN cards support a highly accurate 1 us time stamp This time stamp is synchr
140. resistance In practice this means If the net excitation decreases e g because of a weak power supply or a high resistivity with long cables the devices have to readjust to cover the current power requirements This causes a higher power consumption which additionally increases the voltage drop Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 16 123 IP TRONIK Data logger M LOG S LOG FLEETlog IPElog 3 Data logger M LOG S LOG FLEETlog IPElog 3 1 Overview Overview properties and options M LOGLX S LOG FLEETlog IPElog PC CPU RAM on board MB LX800 256 1 800 256 1 800 256 Atom 1024 Real time operating system Y Y Y Y IPETRONIK TESTdrive software v v gt V3 19 gt V3 50 Compact flash data storage medium removable v v v 1 8 SSD data storage medium removable v Intelligent power management v v v v Interfaces Hardware 1 COM2 v Y ETH Ethernet as IPETRONIK system interface v v v v USB 2 0 2 2 2 3 DIG IN DIG OUT 4 4 4 4 2 2 4 4 2x CAN High Speed acc to 11898 2 Option Option 4x High Speed acc to 11898 2 Option Option v 3 2x CAN High Speed acc to 11898 2 2x LIN Option Option 1x CAN High Speed acc to 11898 2 Option Option 1x CAN Single Wire 2x LIN 2x ETH Ethernet as measurement input Option Option Option Acquire FlexRay data via FlexRay Ethernet converter External External External requires Ethernet input option FLEETlog
141. responding formula 4 2 Anzeige 4 m vIEWgraph M VIEWgraph LEDs Display page 01 B Display area EB Display area General Trigger Formula DIM 01 1 L m COEM ELA e E o 0 Down 0 example shows the action e g Switch off buzzer as soon as the digital input is high Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 99 123 Display modules Event handling IP TRONIK Event signals can be used to control data recording as well as to switch on off external components via the digital outputs Systems Name 4 4 M LOG 2 CAN wd 3 CAN D2 DIN S DOUT USB ETH COM 1 COM 2 Audio Display Horo Data processing ae Status ER Local storage groups Local calculations gt Event handling a EET M VIEW graph F2 left M VIEW graph left M VIEW graph F4 left M VIEwgraph F1 right M VIEwgraph Fz right M VIEw graph F3 right M VIEwgraph F4 right Beepon Monitoron MonitorOrr Limit violation On Limit violation GFF FOR TriggeredShutdown M VIEWgraph Fx xxx BeepOn BeepOff MonitorOn MonitorOff Limit violation On Limit violation Off TriggeredShutdown Logger Manual 03 51 Mame Active Unit Phys Min Phys Max Ser Type 2 m Add event signal MORILEC gt Event signal 01 1 Select Event
142. rom channel Using the setting From channel means the channel with the highest sample rate within the storage group will determine the storage rate Time stamp channel The measuring data contain the absolute time channel logger time Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 47 123 Basic functions IP TRONIK NoValue Save trigger channel Ring buffer size The NoValue between the trigger events which is defined in the respective chan nel is added with Format The trigger status channel is added to the storage group and recorded This channel contains additional information which is saved with the single bits in the data set Defines the size of the ring buffer for measuring If the max ring buffer size is reached the memory is overwritten beginning with the oldest data error case Define how many data is recorded before and after the event with the pre trigger U Use the ring buffer group to record data which is only required in case of a specific event e g and post trigger Please note that relevant data can also be overwritten depending on data rate and storage duration 6 3 2 Trigger settings General Settings Triggering Mode Pre trigger duration Post trigger duration 1 Start trigaer Stop triager Mode Pre trigger duration Post trigger duration Start trigger Stop trigger Scaling Start and Stop trigger 105 DIN 017
143. ronik com 76 123 Options license required IP TRON Import signal descriptions from the CANdb Signals in data source Select signal Properties of highlighted signal Front_right P CANdb import CAN 01 Drag a column here to group by that __ Project riam Selection Samplyfg rate Physical range Description Project versit f Peete inact T FreeRunning Pressure Abs e Hz 2 bar Pressure Rel Hz 2 bar 2 bar Baudrarl 0 bar 3 bar 21939 X EAD qe AV LM Front left Hz 50 200 Front right 50 C 4200 a Rear left Ld 50 200 C i Sampling rate Read right ll 1 50 200 C Descr Exhaust 1 Lj a Hz Signal _2 1 50 1200 Display ideniti Byte order type 16 Bit integer Bit count m 15 CUI Bit mask i Physical maxi Unt CAN ID 00000 7 eee 2 Importer a In this dialog all signals that can be imported from the description file are displayed In the left table all signals where the selection checkboxes are selected will be marked for import In the right table the properties of the selected sign
144. roup replace with Group1_5 Refer to the header of the DAT file for further parameter settings 7 9 Event controlled measurement 7 9 1 Possibilities for data acquisition For measurement signal acquisition and storage in electronic systems analog signals need to be digitalized first This is done by taking discrete measuring values from the continuous signal sequence Sample amp Hold and recording them cyclically Cyclic recording is also used for native digital signals e g for measuring data packages from bus systems For some applications it is useful to not record CAN bus data cyclically but event controlled In the following the basic features of both data acquisition types are described Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 67 123 7 9 2 Cyclic data recording of continuous signals 5 06 40 5 08 20 5 10 00 3 11 40 5 15 00 9 16 90 3 18 20 5220 00 3221340 Amplitude NoValue range 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 Time Signal value at sampling point equidistant interval Features of cyclic data recording Plugin IPETRONIK LOG gt time based recording in a fixed time grid e g sampling rate 100 Hz different storage groups allow different data rates for recording gt individual time channel for each storage group in measurement data set continuous recording in equidistant intervals suitable for analog signals improved ti
145. s aed EGIT Hardware Configuration Systems Name Type 41 80059999 M LOG 2 20 CAN 01 02 DIN DOUT USE ETH Audio Add components SPS Display Change inta E Multiple selection Mame P S status 5 5 latitude P S longitude GPS speed GP5 altitude Active m L L GPS satellites number General Format Active Mame Description Reference Sampling rate Display Limit value GPS precision Precision Unit Phys Min Phys Ma 1 3 4 38 3 4 38 3 4 38 3 4 38 km h 3 4 3 3 4E 38 m Ss Edd 1 Predefined settings are available to configure the acquisition The single channels are activated as required The accuracy of the positioning data is considerably defined by the number of received satellites 12 satelites are in the geostationary orbit Due to physics the accuracy of the height acquisition Altitude with this method 15 considerably lower than that of the length acquisition Latitude geographical width Longitude geographical length Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 87 123 Options license required IP TRON 8 4 Remote data transfer The logger offers the availability of wireless data transfer by corresponding options Single ve
146. s Channel01 15 Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 44 123 6 2 3 Start Stop trigger Begin of data storage if start trigger condition impulse is met Stop of data storage if stop trigger condition impulse is met A defined follow up time extends the data acquisition for x seconds If no stop trigger event is set data is recorded until Remote OFF or end of the follow up time T n 5 w b ems 2 Ce Li OS o Un 05 D p c E gt 5 U d m a o 9 E in tA w a Module wait for trigger r Xriggel Start trigger stop trigger Measure Acquire data write continuously to the buffer memory Pre Trigger Data i Post Trigger Data 4 t 2 2 Bgger vat Store Time 6 2 4 Stop is inverted start Data storage for the time of meeting trigger condition status A defined follow up time extends the data acquisition for x seconds If trigger status does not change after successful trigger condition data is recorded until Remote OFF or end of the follow up time Remote ON switch on Remote OFF switch off Ready for measurement Trigger condition fulfilled Trigger condition not fulfilled Fx x m Trigger m umb puis nm nm me Measure 5 Pre Trigger Data Post Trig
147. s and the general conventions binary data is included in the same files These files are separated accordingly to data type and are defined by an extension corresponding to data type e g W32 R64 The results of several classifications of the same data type are stored in one binary file Most classification types create results of the W32 data type The retention time classification can create different data types Example Acquisition no 699 gt COBBCCCC DDD Header COO010699 DAT Header Classification m n CO010699 W32 32 Bit Word unsigned can include several classifications COO010699 R64 64 Bit Real can include several classifications Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 120 123 Audio recording A DIAdem acquisition and one or several audio files WAV format are created with an audio recording The acquisition contains the trigger event the WAV file includes the audio data Every audio file is assigned to one triggering event The names of the audio files include the counter value of the trigger channel to create a direct reference within the acquisition data The respective audio file is recorded for the time of an activated trigger Example file Acquisition no 699 gt Trigger channel A0000699 DAT Header A0000699 W16 16 Bit Word unsigned Example audio file Acquisition no 699 gt ABB
148. s are also available in different lengths and socket configurations Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 20 123 Data logger M LOG S LOG FLEETlog IPElog PIN configuration PRO5 S LOG IP TRONIK 1 BUS INPUTt PIN CAN 1 CAN 2 CAN 3 CAN 4 CAN 5 CAN 6 CAN 7 LIN 1 CAN 8 LIN 2 1 CAN5 L 6 L CAN7 L CAN8 L LIN1 VBAT LIN2 VBAT 2 CAN1 L CAN2 L CAN3 L CAN4 L 3 CAN1 5 GND CAN2 6 GND CAN3 7 GND CAN4 8 GND LIN1 GND LIN2 GND 4 CAN5 H CAN6 H CAN7 H 8 H LIN1 H LIN2 H 5 Option Vgarr iN Option VaarrAN Option Option VBATT IN CAN5 WakeOnCAN 6 WakeOnCAN CAN7 WakeOnCAN 8 WakeOnCAN 6 PWR GND PWR GND PWR GND PWR GND 7 CAN1 H CAN2 H H CANA H 8 Option Vgarr iN Option Option Option CAN5 WakeOnCAN 2 WakeOnCAN CAN3 WakeOnCAN CAN4 WakeOnCAN 9 UB OUT UB OUT UB OUT UB OUT 2 M CAN SIM CAN 3 DISPLAY SIM CAN M CAN M VIEW 1 CAN H M PWR 1 GPS PWR 2 L M PWR 2 Remote 2 3 CAN GND SYNC 3 PWR GND 4 Status IN SYNC 4 USB2 DATA HOST 5 SYNC CAN GND 5 USB2 DATA HOST 6 SYNC PWR GND 6 USB3 DATA CLIENT 7 SIM PWR PWR GND 7 USB3 DATA CLIENT 8 SIM PWR CAN H 8 USB1 DET 9 PWR GND CAN L 9 USB GND 10 PWR GND 10 USB2 PWR 5 V 4 DIN DOUT LED 5 MODEM GPS DIGITAL IN OUT PIN Serial 1 D
149. s is dynamically fit Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 97 123 x axis area Displayed time interval at x axis Select an interval from 15 30s 1 2 5 10 20 30 min 1 2 h One joint y axis One joint y axis for all graphs Line width Line width of graphs Define the line width of all graphs in this area selectr from 1 2 83 pt Numeric display settings Visible columns Division of the current screen area for numerical display in horizontal and vertical columns Text color Define the text color for all numerical displays in this screen area If a Channel is selected following settings can be defined in Numerical display tab Name Enter an alternative signal name e g as short description if the original name is too long to show at the configured M VIEWgraph display Integer places Number of digits to the left of a separator Decimal places Number of digits after a separator Define limit values Alarm function Limit values of displayed signals can be defined with the main menu Acquisition Add limit value The respective signal limits are directly defined in the signal dialog channel configuration After every limit violation the display changes into limit value window and the buzzer sounds For the time the limit violation is applied the signal is dislpayed in red Following information is shown in the limit value window Signal signal name with current value and unit Date
150. s longer than one second Function in standard display in scroll mode AUTO Changed from AUTO to MANUAL with Up Down keys 1 Back to auto scroll mode Press longer than one second If the key is not pressed the display changes after 30 s into auto scroll mode owitching from MANUAL to AUTO is only possible if auto scroll mode has been activated Function at configured alarm limit values 1 Buzzer off Shortly press to switch off buzzer 2 Clear alarm Press longer than one second Back to standard view If the alarm has already been cleared 5 times a final message appears to definitely delete the alarm Up Down A One line up A One line down v Switch AUTO gt MANUAL A or V if AUTO Auto scrolling has been activated in configuration Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 91 123 Stop acquisition gt Press longer than two seconds Start acquisition gt Press longer than two seconds V The option Allow start and stop of acquisition must be activated in the configuration The measurement file number is increased by one at every acquisition start If the option Track or Track Driver List tyoe selection is additionally selected files can be merged to one file until the final end of data recording Devices connected to the logger remain switched off until acquisition stop ON OFF button PIC firmware 2 V1 05 required on the logger Logger on gt Press longer than one second L
151. s stored in the zip container of the acquisition MEA xxxx zip or attached to the status e mail if this file creation has previously been activated in IPEmotion Options gt Plugins gt IPETRONIK LOG gt Plugin specific settings gt Options gt General gt Create measurement status file Example Measurement status file measurement number 699 gt MSxxyyyy xml xx Append number yyyy Measurement number Measurement status file 1 5010699 Messstatus status file 2 5020699 If an acquisition is later continued Append mode TESTdrive increases the append number in the file name Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 122 123 Appendix IP TRON list STG file TESTdrive creates a separate file STG file to record minimum and maximum values of selected signals Example STG file Acquisition no 699 gt STBBCCCC STG STG file 1 51010699 5 Min data of storage process group 1 STG file 2 ST020699 STG Min Max data of storage process group 2 Traffic recording CAN LIN TESTdrive saves traffic acquisitions in binary format A traffic acquisition can include two binary files Traffic data recorded by TESTdrive during boot time Traffic data recorded by TESTdrive during run time Advice Storage of CAN traffic data and LIN traffic data in the same file The names of the single acquisition files are generated according to TBBBCCCC BIN structure TBBBCCCC
152. single signals measuring values in different messages feature different time stamps gt in the result graph the time stamps do not lie on the same x values any more no protocol measurement possible CCP XCP FlexRay determination of exact time difference between signals difference between time stamps NoValue entries indicating the absence of signals are avoided Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 69 123 7 9 4 Setting up event controlled data recording Plugin IPETRONIK LOG General Event controlled measurement available from TESTdrive 3 51 00 onwards features the benefits of signal measurement and traffic measurement Signal selection is already interpreted name scaling unit Yet measurement is not performed cyclically but with real time stamp Signals are only recorded if they really are present on the CAN bus Using the exact time stamp Event controlled measurement appears like a signal measurement on the configuration surface and in the measurement file Loggers process the respective storage groups in traffic measurement mode Configuration settings The respective signals must not be recorded cyclically amp Gpe kxeanagoela IPEmotion File Project Signals Acquisition View Data manager Analysis Reporting Scripting Info pr Check Adjust Display rit E System Compo Configuration Access 03 51 00 3075
153. sor capability is limited it is recommended not do create more than 20 to 30 different pages depending on the proportion of graphical elements Configuration of up to 15 pages 200 signals have been tested Bigger configurations could cause displaying problems Use devices with serial end number gt 116 Processor 20 only with firmware version gt 1 05 Add M VIEWgraph display pages and channel gt Select Display in the tree structure gt Select Add components Select M VIEWgraph 4 L Display Ee Eal Add components Iga Display page gt Add a Display page Channel LEDs Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 96 123 Define status LEDs for limit display The 4 status LEDs can be activated by separate and user defined calculation formulas Additional thresholds can therefore be defined and reaching these limits can optically be signalized see M VIEW fleet Define display page The display can be separated into different areas A page title can be assigned to every page invisible in measuring mode and a title can be assigned to every screen zone visible in measuring mode The following layouts can be selected with the current IPEmotion version Full screen Horizontal tripartition Horizontal bipartition The screen is horizontally divided to 5096 each The upper area shows graphs and the lower one the current value as numerical display
154. st slow from the 9 DAQ list fast 0 i a COM 1 0 Description Ultra compact modular data logger with 4 interfaces left hand tree structure right click r trece ER and choose Add components 0 Jisplay 0 gt Channels from the context menu 2 fx Logger processing 11 Status 11 gt Mark CPU load and confirm Bi Storage groups 2 System status e by clicking gt Mark the logger from the left hand tree structure top area Click Start displaying from the tool bar gt Once the logger has been initialized the current value of the CPU load is displayed continuously in the signal list Now logger s ETH communication test and online data streaming via XCP service has been completed succesfully Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 25 123 Data logger M LOG S LOG FLEETlog IPElog IP TRONIK 3 3 3 Add logger system creating test configuration USB stick In case the data acquisition or the Ethernet connection is not working properly e g when using obsolete former configurations incompatible IP address settings succefully tested configuration per USB stick to the logger Create a logger system Select from the main tabs Signals gt Add system gt e g M LOG 4CAN Enter the front number of the logger you will use gt Mark the logger at the left hand structure top area and choose the Extended tab to set the l
155. t 1 RTR Remote Transmission Request 1 r1 1 rO 1 rO 4 DLC Number of following data bytes 4 DLC Number of following data bytes 64 Data Data bytes 64 Data Data bytes 15 Error Identification Code 15 CRC Error Identification Code 2 ACK Acknowledge 2 ACK Acknowledge 10 EOF End of Frame 10 EOFS End of Frame 110 Sum 130 Sum Word Byte Bit Message layout in the displaying format Intel Standard 0 0 7 6 5 4 3 2 1 0 1 15 14 13 12 11 10 9 8 1 2 23 22 21 20 19 18 17 16 3 31 30 29 28 27 26 25 24 2 4 39 38 37 36 35 34 33 32 5 47 46 45 44 43 42 41 40 3 6 55 54 53 52 51 50 49 48 7 63 62 61 60 59 58 57 56 Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 14 123 Access to the bus Transferring properties The CAN bus allows a safe and effective data transfer of the connected devices non destructive bitwise arbitration resource distribution to different devices The CAN bus is therefore used as a standard communication medium in the automotive area and the industrial automation The most important characteristic CAN bus properties are gt Every bus participant node can send as well as receive First of all the node which wants to send needs the authorization All participants become automatically a recipient There is no abortion of the data sending process gt non destructive collision stations are addressed but messages Every message is characterized by its name Identifier The less t
156. t configurations acquisition online view script configurations Trace files NET C If you have any problems while working with IPEmotion send us this support file at support ipemotion com Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 39 123 Configuration with IPEmotion extract P TRON 5 1 6 IPEmotion working areas main navigation tabs The main navigation tabs allow a quick activation of the different main functions of IPEmotion A tab displayed in light blue indicates an active function IPEmotion is designed to follow the main navigation tabs from left to right Use this reasonable order like a read thread which guides you step by step to a successful acquisition Project Signals Project Signals Acquisition View Data manager Analysis Reporting Scripting Info Project 1 File Project Signals O 8 n Save Name Company name Serial number Manufacturer ID Project name Project manager name Acquisition View Data Analysis Reporting Scripting Info manger Define your general user defined project data Configure the connected acquisition systems and modules Configure the desired storage groups and channels Take a measurement defined by the connected hardware modules and the set configurations Manage your stored acquired data in all the supported formats Visualize your channels with diagrams Create reports and projec
157. t documentations Automate your acquisition sequences Get a basic overview and general support Beenie Acquisition View Data manager Analysis Reporting Scripting Info ae s Save as Generate Guidance Configuration Project properties Value E mail address project manager User E mail address user User login Description IPEmotion version File name Date Logger_Manual_V03 51 hu V03 00 03 01 08 2013 16 37 18 IPETRONIK GmbH amp Co KG ipetronik com 40 123 Configuration with IPEmotion extract Signals e File System Project Signals Acquisition View Analysis B Components Initialize ha T Data manager Configuration Access V03 51 00 30750 RC Active Unit DIN 01 DIN 02 DIM 03 DIN 04 DOUT 01 DOUT 02 DOUT 03 DOUT 04 fellow LED 1 4 3 Project settings CAN 01 CAN 02 CAM 03 CAM 04 DIN DOUT USB Vint 9 Reporting Phys Min IP TRONIK IPEmotion Scripting Info gt Display Phys Sensor Min Sensor Max Sampling rate 1 0 1 0 1 COM 2 Audio Display Logger processing Status storage groups General General Extended Mail groups Traffic groups Calculations 5 1 7 Info Front number TEST drive
158. tails Wc ETH 620 591 M PWR GND PWR 620 574 REM Shield ETH 620 591 xxx m PWR GND PWR 620 574 xxx REM Shield IPElog Useful notes If the Ethernet connection to the logger will not work properly at first transfer the correct IP settings to the logger using an USB stick Refer to Add logger system creating test configuration USB stick Using the cable 620 591 xxx LOG Cable ETHERNET crosslink is a point to point connection between logger and PC A fixed IP address is required for both Refer to Static and dynamic IP addresses When connecting the logger and the PC used for configuration and data acquisition to a network with DHCP server both have to be set to dynamic IP address in order to receive the individual IP address by the DHCP server automatically In this case use cable 620 355 xxx M LOG 05 ETH Cable RJ45 Please consider the risk of IP conflicts same IP address may exist twice if you use static IP address settings when connected to a network with DHCP support Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 24 123 IP TRONIK 3 3 2 Detecting the logger creating test configuration Ethernet Start IPEmotion at your PC Notebook Using Logger Plugin version gt 3 50 IPEmotion gt 2 0 is required Data logger M LOG S LOG FLEETlog IPElog IPEmotion amp ee gt Activate th
159. tation as provided to LICENSEE In the event of any infringement claim for which IPETRONIK is liable pursuant to section 5 a IPETRONIK may at its sole option and expense i procure for LICENSEE the right to continue using the licensed SOFTWARE or documentation modify or amend the licensed SOFTWARE or documentation so that it becomes non infringing ii replace the licensed SOFTWARE or documentation with a non infringing substitute or Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 8 123 Important and general information P TRON iv recover the infringing licensed software documentation from LICENSEE and repay to LICENSEE all license fees paid to IPETRONIK in connection therewith less a reasonable amount based LICENSEE s use prior to such recovery and refund This Article 5 sets forth IPETRONIK s sole obligations and liability for intellectual property infringement These indemnity provisions only apply to the SOFTWARE as originally licensed to LICENSEE and do not cover any MODIFICATIONS made by LICENSEE or any other third party 6 Limitation of Liability a EXCEPT WITH RESPECT TO ITS INTELLECTUAL PROPERTY INDEMNIFICATION OBLIGATIONS AS SET FORTH IN ARTICLE 5 IN NO EVENT SHALL IPETRONIK BE LIABLE FOR SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES INCLUDING WITHOUT LIMITATION LOST PROFITS LOST DATA OR LOST SAVINGS EVEN IF IPETRONIK WAS ADVISED OF THE POSSIBILITY OF SUCH DAMAG
160. the XCP service These channels are then available in online view Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 36 123 Please note the restrictions depending on the Ethernet interface of the PC and the number of active channels In this case it is recommended to manually import the required channels into the DAQ lists of the XCP service deactivated Automatic service administration Configuration with IPEmotion extract P T RO N K View Define your view settings according the following listed points Language selection gt Skin selection gt Displaying tooltips gt Font size of the visual elements gt Transparency of configuration dialogs 0 30 percent Activate or deactivate the use of the Windows standard dialogs for the file and directory selection The Open file dialog is skin enabled i e it is shown in the selected user interface type P IPEmotion options Frequently used Language selection English Basic settings Appearance Skin selection Blue Data manager Displaying tooltips Fast Analysis Normal Units MAL PlugIns Font size of the visual elements Transparency of configuration dialogs 15 Use Windows standard dialogs Data manager Define the Time channel format as Relative or Absolute This setting is currently not supported for the export into external formats and activate or deactivate the option Merge time channe
161. tick to the logger to add an XCP service at first Assign all signals to the DAQ lists of the XCP service which you want to be displayed The Options setting Automatic service administration will automatically create an XCP service and assign all active signals to the DAQ lists e To display measurement data acquired by the logger using the Ethernet connection you have 3 3 6 Access to data stored on the logger The logger stores all data in a Zip archive on internal storage medium cF card resp SD card with IPElog MEA xxxx zip measurement data header file current configuration LOG 2 logfile with status reports of the data acquisition 1 A measurement file archiv file is empty if the sum of the file contents calculated from the files listed below 15 0 In this case the respecitve zip archive will be deleted all files containing storage groups except the DAT files all trace files BD all statistic files except the DAT files Min Max statistic file STG Audio Video files except the DAT files AVI WAV IMG Traffic files BIN Quickstart LOG file Measurement status file PPP debug file PPP Access data transfer to a PC or FTP server to data stored on the logger is supported per USB stick gt through an Ethernet cable connection using COMgate or an internal external WiFi client using COMgate WAN or an internal external modem Logger Manual 03 51 IPETRONIK GmbH am
162. ts or representatives permitted access to the SOFTWARE of the duties and obligations under this Software License Agreement d LICENSEE has the right to MODIFY the SOFTWARE for use on any internal computer or of EQUIPMENT as long as it is only on one computer or piece of EQUIPMENT at any given time e Any MODIFICATION S to the SOFTWARE are subject to the terms and conditions of this Agreement f LICENSEE may not i Loan rent lease give sublicense distribute transmit or otherwise transfer the SOFTWARE or otherwise exercise any of IPETRONIK s legal rights in and to the SOFTWARE or any derivative works of the SOFTWARE in whole or in part except with the prior written agreement of IPETRONIK ii Copy translate reverse engineer decompile disassemble the SOFTWARE in whole or in part iii Except as provided is Section 2 d create derivative works based on the SOFTWARE in whole or in part Logger Manual 03 51 IPETRONIK GmbH amp Co KG ipetronik com 7 123 Important and general information P TRON iv Remove modify or cause not to be displayed any copyright or trademark notices license agreements or startup messages contained in the programs or documentation v Transmit or otherwise export outside of the Unites States any of the SOFTWARE or technology in violation of United States or other applicable laws or regulations 3 Ownership of Intellectual Property LICENSEE agrees and acknowledges that the SO
163. umerical and graphical data display The display is connected to the logger via USB port In addition to two status LEDs it provides four trigger LEDs to show limit violations The display is controlled with 12 illuminated keys 4 keys with standard functions 8 keys which can individually be defined projected The illuminated 7 TFT display has a resolution of 800 x 480 pixel to display graph charts and numerical values VIEW fleet eh see M VIEWgraph cannot be supplied with power via 620 595 030 prenne the logger as M M VIEW graph 620 574 015 Power Remote 620 500 003 M CAN Termination 600 830 005 SIM CAN 620 500 002 M CAN 600 830 003 51 Termination M LOG PROS ec eg S LOG M Modue eee M Module SIM Module SIM Module M LOG OPT 030 dovetail adapter M Modules connection M LOG OPT 031 mounting plate DIO 620 324 600 580 D Sub open Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 95 123 9 2 1 Keys and LEDs Oh OFF The functionality of keys F1 right to F4 right is also available with the touchscreen of the alarm window The side keys F1 to F4 left and F1 to F4 right can be used to control data recording with a corresponding configuration e g as start and stop trigger 9 2 2 Configuring M VIEWgraph M VIEW graph supports the display of any number of pages Due to the fact that the proces
164. ver TESTdrive version 3 09 00 allows starting M LOG as server Data can easily be transmitted with a FTP software e g Total Commander or WS FTP Depending on the user rights data can additionally be deleted or written A separate USB flash drive incl TESTdriveCmd xml file is required for this functionality The running acquisition is stopped and the log file saved with connecting the USB If the TESTdriveCmd xml file includes the StartFTPServer OnConnect job there is no post processing TESTdrive reads the corresponding parameters and starts the server Server access requires the following user data Version User Password Access rights V03 09 00 guest none Read to TO directory A reboot is automatically running at connecting USB flash drive to correctly stop the service as FTP server Procedure 1 Switch on M LOG 2 Connect USB flash drive with TESTdriveCmd xml 3 Connect Ethernet cable between M LOG and PC e g 600 591 xxx M LOG 5 S LOG 4 Configure network settings of PC create additional Alternative configuration User defined IP address 192 168 0 1 Example Total Commander settings Server name 192 168 0 2 Enter user name and password 8 2 6 Recording audio and video data Recording video data Data logger supports recording video or single shots with a camera The camera is connected to the logger USB port Following settings are available Resolution Defines the image quality Low 160 x
165. version Summer time automatic System activated Data manager 2783 LIriEnowri Appendix Time zone From options Configuration dialogs The chapter offers a basic overview of the IPEmotion software In addition it shows useful advices and tips and tricks on how to use IPEmotion The view Info is divided into the following menu points Welcome Release Notes only in English gt Red thread Tips and tricks gt Keyboard handling Documentations gt Contact and support Logger_Manual_V03 51 IPETRONIK GmbH amp Co KG ipetronik com 41 123 6 Basic functions 6 1 Switching on switching off Description of the supported switching on switchting off modes 2 Remote 1 Ignition line 15 P o 0 O D a D q C gt 9 o LS i C D mg O O 5 2 z D 2 D Bo gg YX Y Y 2 gt NSZ Status Booting Measurement running Follow up time B Post processing Gi SW Emergency switch off _ _ 422222 73 M Communication Timeout I I I I HW Emergency A 1 I I I 1 I I Power Management I I I Follow up time LEE L L Variant t 1 I T Continuous Remote I I gt 20 i 1s 3 Variant 2
166. we recommend to use the cable M CAN Cable M CAN PWR Fuse No 620 677 xxx in order to prevent the logger from damage caused by a short circuit 5 A regular ATO fuse 5 E 2 a Se d AL 2 lt fo pw M CAN M CAN Fuse 620 677 XXX Length dm 3 2 7 LED status display flashing codes LED display Mode Meaning Ready or Device is ready operating Operation see yellow LED Warning The excitation is between 6 V and 9 V M Low voltage LOG shuts down after 2 minutes at unchanged status Warning II The excitation is under 6 V M LOG is Low voltage buffered by the internal supply and normally shuts down Measurement The logger writes the data to the internal running memory u Data medium Prepare file transfer zip split access post processing BEN Data transfer Transfer files via USB modem or WiFi Error e g at invalid configuration at less memory Emergency capacity at emergency shut down due to operation less excitation A restart is required 3 2 8 Power down at excitation loss M LOG S LOG FLEETlog and IPElog are equipped with high powered capacitors which guarantee a short excitation in the case of an excitation loss for regularly shutting the system down without data loss The storage capacity of the capacitors depends on several points e g ambient temperature aging charge condition A data loss can therefore not
167. will be displayed in a select list Confirm your selection by activating the corresponding checkbox and click OK The configuration settings stored on the logger will be readout and displayed Cancel s Reporting Scripting Info R gt TI Initialize MILE SS gt Activate the status signal a Tooms IPEmotion CPU load 7 Project Signals Acquisition View Datamanager Analysis Reporting Scripting Info e m f GC R 5 gt gt Mark the logger at the left hand Add system Add components Import Export Check Adjustment Detect Start displaying structure top area and scroll the 2 4 signal list downwards to CPU load ae 20 ctive ys Min ys Max sor Mi ensor Max hook Active to enable the gt 2 checkbox 4 Red LED 0 1 0 1 93 Project settings 0 Remote 0 1 0 1 d GARS 0 01 0 1 0 1 Remote 02 0 1 0 1 gt Select ETH from the left hand i 04 o Wake on CAN 0 0 0 tree structure right click and Sz 42 SR i Meee e DOUT 4 Uptime Ws 0 000 429496 0 4294967 295 1Hz choose gt Add components J us mm c 07 gt service from the context 4 d xu 1 General Extended System activated Data manager menu ty DAQ list slow 1 Active V 2 g 9 80001707 Select DAQ li
168. work Server PC with access point server network access Components M LOG S LOG FLEETlog WAN IPElog M LOG S LOG with WiFi data transfer option with COMgate antenna data transfer software or with client antenna WiFi software Connecting cables WiFi access point to connect with network M LOG S LOG Funktional principle A logger in measuring mode continuously stores data as defined in the configuration If the test series is completed status of remote signal is inactive e g terminal 15 data is packed If the vehicle is within reach of an access point up to 300 m outdoors data is transferred via WiFi to the access point This data is then transferred via local network to a server If the local network is connected to the internet data can also be transferred to a FTP server for being available for download All data transfer settings are defined in the IPETRONIK software Due to multiple encoding options transmission protocol and user a very high degree of security against unauthorized access is guaranteed Logger Manual V03 51 IPETRONIK GmbH amp Co KG ipetronik com 89 123 9 Display modules 9 1 M VIEWfleet M VIEW fleet is a alohanumerical data display which is connected to the USB of the logger M VIEWfleet provides different displaying modes besides four status LEDs and buttons The number of displayed channels is only limited by the processor load E oS Mee Erro etUAALULALLEC
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