User Manual Engine Compartment Measurement
Contents
1. Download Device type Device serial number CAN pressure e None Firmware Library Get an overview about the current CANdownload firmware versions and download the latest firmware versions from a user defined directory into the CANdownload library gt Check for updates To update a library proceed as follows gt Select the desired IPETRONIK FTP connection string or a user defined directory gt Click on the Check for updates button A progress bar shows the running updating process The current CANdownload 2 version supports the following structures for creating user defined directories gt ftp gt file gt file CANdownload is based on the definition that only one directory for all update files and the fw Ist file is required You have the ability to use a user defined directory with own released firmware versions see chapter Creating an user defined library Please note the following need of using own libraries with firmware versions Devices Actions Library FTP connection string IPETROMIK FTFI Check For updates Firmware type The file with the name fw Ist must be stored in the corresponding update folder The file name may not be changed 519 SIM STG 524 SIM LAMEDA 4 560 M THERMO 561 M SENS 562 M FRQ 563 U THERMO 566 M THERMO 16 56 M SENS B 568 M SENS Splus 569 M THERMO T 595 CoNpressure IPETR2. 50 100 temporary 1 ms 200 100 temporary 1 ms 200 60 to 1370 lt 0 174 13 Bit look up table gt 13 Bit 0 035 0 035 3K 20 30 1 sensor break detection active 10 sensor break detection not active before acquiring a value can be activated with the software not available 1 Identification of the respective channel 2 Sensor break displaying in acquisition mode 1 0 filter type R C low pass 1 order 1 2 5 10 20 max 160 max 320 2 0 B electrically isolated max 1 MBit s acc to ISO11898 2 8 Byte or 16 Word signed unsigned CAN IPETRONIK GmbH amp Co KG ipetronikcom 52 92 M THERMO2 M THERMO 8 M THERMO 16 P TRON K 4 5 Technical data M THERMO2 General Voltage supply V DC 6 to 36 Power consumption typical W 1 1 Operating temperature range Permanent 1 hour C 40 120 120 125 Notice An immediate safety shutdown runs at T gt 125 C which is reset at T lt 120 C Storage temperature range C 55 150 Relative humidity Vo 5 95 Enclosure golden anodized aluminum IP 67 Dimensions W H D mm 106 30 50 Weight g 250 Thermocouple input electricallv isolated Galvanic isolation Input lt gt Device supply V nominal voltage 100 pulse voltage 500 Input gt CAN V nominal voltage 4100 pulse voltage 4500 Input lt gt Input V nominal voltage 100 pulse voltage 500 Range type K Ni10Cr NiAl C 60 to 1370 Resolution C l
3. Display Input signal Excitation Filter Sensor mode Mode Frequency with direction Frequency a Sensor range Buty cyde Period duration Pulse duration Physical range Pause duration Event counter Mins II Min Channel 2 and Channel 4 provide the Mode tab to set the operating mode to detect the rotating direction in combination with input 1 resp 3 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 79 92 M FRQ M CNT2 IP TRONIK 9 5 Technical data General Voltage supply Power input typical maximum Working temperature range Storage temperature range Relative humidity Enclosure Dimensions W H D Weight Voltage input Galvanic isolation Input lt gt Device supply Input lt gt Excitation Excitation lt gt Device supply Input lt gt Input Adjustable thresholds Range 1 Quantization Range 2 Quantization Accuracy at Tambient 25 C Accuracy at 40 lt Tambient lt 120 C Signal evaluation Frequency mode min signal frequency max signal frequency Duty cycle mode min signal frequency max signal frequency Resolution Period pulse pause duration mode min max Resolution Event counting mode V DC C C mm lt lt lt lt lt lt Hz kHz Hz kHz us us us IPETRONIK Engine Compartment Measurement M FRQ M CNT2 9 to 36 switch off at voltage c 6 V 2 0 7 0 2 0 7 0 40
4. IP TRONIK M THERMO2 M THERMO 8 WG M SENS M SENS 4 M CNT2 M FRQ MultiDAQ CANpressure P MEASURE Instrumentation Engine Compartment Measurement October 2013 Content IP TRONIK Content 1 Important and general information ses 6 Ba Ne ee el IMIG MAON EE 6 1 1 1 Safety and Warning INStrUCtiONS cccccccceceecccceeccaeeseeeeeeeeeeeaesseseceeeeeeseeeaseeeeeesssuaaseeeeeeeesaaaags 6 1 1 2 Liability Warranty Copyright License agreement EE 6 See Wl teg le 10 E ee ul ET E E 10 e E 10 1283 ile endor used ICONS ee 10 l 2407 lee i E E E N E E E E E E E EA 11 1 25 Related documentation BEE 11 1 3 Documentation te et 11 2 General system scener ELLER EEE REENEN EEN REESE SEERE REESEN 12 2 1 Modular system EE 12 2 2 Connecting the devices via the CAN Bus ccccsssssceceesseeecseeseeeeeeeseeeeseaseeesseseeeneas 13 2 2 1 Basies of E E 13 2 2 2 Ampacity ana voltage drop EE 15 2 3 Synchronous data acquisition cccceeccccceseeceeceeeeeeeceeeeeeeseeeeceeeeeeeeeeseeeeeesseeeeeesseeeeeeeas 16 2 3 1 Principle of the synchronous signal acquisition D 16 2 3 2 Master clock as higher system cdock EEN 16 2 3 3 Measurement systems without master doch 17 2 3 4 IPETRONIK measurement system with without synchronization clock 17 an e 18 2 4 General device Edi e EE 19 2 4 1 Properties and structure c ccceecccccceesseeecceessececccsaseeecsceuuseeeccseasseeesssaaaeeeessssageeesessaageeeees
5. MultiDAQ IP TRONIK DG Kik AE XX fae ai E x G ei P Goes IPEmotion File Project Signals Acquisition View Data manager Analysis Reporting Scripting Info Ea A LEI if B System Components Import Export Check Aelia RFIG az Display D I ikali i Configuration Access View VO1 03 00 a Name Active Unit Phys Min Phys Max Sensor Min Sensor Max Sampling rate ae Name gt T ki 57700243 1 4 IPETRONIK CAN 1 UI 57700243 2 EC BE 57700243 3 Channel 01 16 THERMO WW ere Channel 17 32 THERMO Channel 33 40 SENS Channel 41 42 FRO 0 60 00 1370 00 1370 60 00 1370 00 1370 60 00 1370 00 1370 50 00 1370 00 1370 60 00 1370 00 60 1370 50 00 1370 00 1370 60 00 1370 00 I 1370 57700243 5 57700243 6 57700243 7 E EJ m LI EL ER EL EX l fs General Format Scaling Display Excitation Filter Adjustment Active DI Description Analog acquisition input for tension power Reference 57700243 33jjjChamnel 2648 SEMS JIPETRONIK CAN i Get more details regarding to the setting of the respective input channels Thermocouple inputs refer to 4 3 M THERMO M THERMO 16 Voltage current inputs refer to 7 4 M SENS 4 M SENS 8 8plus Frequency period inputs refer to 9 3 M FRQ IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 83 92 MultiDAQ 10 4 Technical data General Measurement ranges Temperature Measurement r
6. 120 120 125 An immediate safety shutdown runs at T gt 125 C which is reset at T lt 120 C 55 150 5 95 golden anodized aluminum IP 67 120 41 55 106 43 58 350 370 electrically isolated 100 t 1 ms 200 100 t 1 ms 200 100 U nominal 500 U puise 100 U nominal 500 U puise 1 00 t 1 ms 200 100 Kleent 500 Ubulse 100 t 1 ms 200 100 KA 500 Ubulse Evalutation with voltage comparator 4 0 025 40 0 2 3 8 Online with DSP 0 03 200 Measuring range 0 01 90 to 99 99 0 03 10 at 1 Duty cycle 250 at 25 Duty cycle 500 at 50 Duty cycle 250 at 75 Duty cycle 10 at 99 Duty cycle 1 or 1 100 fl Fiter greater value 1 200 1 or 1 100 f Fitter greater value Reset functions without reset reset at clock overflow Up down counting with detection of rotation direction IPETRONIK GmbH amp Co KG ipetronikcom 80 92 M FRQ M CNT2 Signal evaluation Internal time basis Accuracy at Tambient 25 C Drift 40 lt BEER lt 85 C Drift 85 lt T Ambientg lt 105 C Drift 105 lt Tamen lt 125 C Hardwarefilter Cut off frequency Type Damping deviation T ambient 25 C 40 lt T Ambient lt 120 C DC compensation lower cut off frequency 3 dB Damping deviation T ambient 25 C 40 lt EE lt 120 C Channel sample rates output rate at the CAN bus Aggregate sample rate depending on number of CAN IDs and bit rat
7. Fullscale by sensor break and real Fullscale value is not possible But the value Fullscale is rarely possible The break detection can therefore be used for identifying errors 4 3 2 Averaging In order to reduce the noise level in a signal M THERMO offers the ability to activate the averaging The average value of the signals is calculated online over a period of the last 4 CAN sampling periods With a sampling rate of 10 Hz the floating average is calculated online out of the 4 previous CAN outputs and sent with the defined updating rate here 10 Hz Averaging ON mi SE A 1 A K DC em E ge A A A A eh Kg ATA SM SS SSS SS SS SS A EH EE game D je 0 1 0 2 0 3 0 4 0 5 Time s Output average value n on CAN i Output average value n 1 on CAN Y Output average value n 2 on CAN Y Output average value n 3 on CAN T 4 3 3 Status LED at the input Only 16 channel thermocouples and the M THERMO2 have a status LED at every input The respective LED indicates the following two states 1 Identification of the respective channel during the configuration The LED flashes if the respective channel or several channels are selected in the configuration software 2 Indication of a sensor break during measuring The LED is permanently on when interrupting the sensor current IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 51 92 M THERMO2 M THERMO 8 M THERMO
8. Ni10Cr NiAl 60 C to 1370 C 76 F to 2498 F 16 Bit gt 13 Bit better than 0 174 C 0 31 F 8 PT100 RTD to measure the reference temperature approx 1 MQ with activated sensor break detection approx 10 MQ with inactivated sensor break detection 1 Identify the respective channel in configuration mode LED flashes 2 Identify sensor break in measuring mode LED lights continuously before processing each measuring value activated per software on command 1 0 Hz filter type single pole RC low pass 1 2 5 10 min 1 2 5 10 20 Hz max 320 Hz 8 inputs electrically isolated 0 1 0 2 0 5 1 2 5 10 20 30 50 100 V 10 MQ 0 1 0 2 0 5 1 2 5 10 20 30 50 100 V 10 MQ 0 20 mA 20 mA 500 IPETRONIK GmbH amp Co KG ipetronikcom 84 92 MultiDAQ Signal resolution Input channel status LED Offset adjust by broadcast command Also supported during measurement Hardware filter switchable Software filter DSP optional Channel sample rates Total sampling rate per bank Sensor excitation Selectable output voltage Output current short circuit proof at Voutput 2 5 10 0 V at Voutput 5 0 12 5 V at Voutput 7 5 15 0 V Frequency Counter input bank 4 Adjustable trigger thresholds Quantization at range 4 V Accuracy at 25 C 40 125 C Quantization at range 40 V Accuracy at 25 C 40 125 C Signal modes Frequency min max
9. signal frequency Duty cycle range min signal frequency max signal frequency at 1 accuracy Reduced accuracy at higher signal frequency and or worst case duty cycle Resolution Period duration Pulse duration Pause duration min max duration resolution Hardware filter adjustable Attenuation Variance at 25 C 40 125 C DC compensation Attenuation Variance at 25 C 40 125 C Channel sample rates Total sampling rate per bank depends on number of CAN IDS and bit rate Sensor excitation Selectable output voltage Max output current CAN output bank 1 2 3 4 Selectable data transfer rate bit rate CAN message data format signal Resolution Format Sign Configuration interface IPETRONIK Engine Compartment Measurement IP TRONIK 16 Bit 1 Channel identification for configuration LED flashes 2 Current overload indication LED on manual offset adjust offset adjust for all channels of a group 150 Hz filter type 8 pole Butterworth cut off frequency and filter type selectable 1 2 5 10 50 100 200 500 1000 2000 Hz max 16 kHz 1 MBit s data rate no other devices electricllay isolated Off 2 5 5 7 5 10 12 5 15 VDC 25 mA independent from output voltage max 30 mA max 40 mA max 45 mA 2 inputs electrically isolated 0 025 V 37 89 0 2 V 3 8 Online calculated by DSP 0 03 Hz max 200 kHz 0 01 99 99 0 03 Hz
10. 0 1 HZ 1 HZ fsampie 10 HZ B 2 KHZ fsampie 0 4 Hz 1 HZ fsampie 496 HZ 2 KHZ fsampie depending on sampling rate and selected filter type Bessel Butterworth Chebyshev Chebyshev invers each 8 pole 1 2 5 10 20 50 100 200 500 1000 2000 0 5 FS nominal pressure TEB 40 C 125 C all measuring uncertainties included 40 150 3 0 total temperature and pressure range offline at running acquisition to target value 2 0 B electrically isolated max 1 MBit s acc to ISO11898 2 8 Byte or 16 Word signed unsigned CAN IPETRONIK GmbH amp Co KG ipetronikcom 89 92 Appendix IP TRON K 12 Appendix 12 1 Linear signal scaling The conversion of a raw value binary value e g ina 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 basis for the line equation y YT B Z I l I I I I l I dy I m oY dx dx i l i I I b EE v2 l l I a eg x2 x1 X Point slope form 2 points form Calculation a
11. 0 Hz 0 low level or 100 high level is sent depending on the signal level The thresholds on and off do usually differ and cause different results of the pulse duration and the duty cycle if the signal edges are low depending on the defined thresholds IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 76 92 M FRQ M CNT2 IP TRONIK Interval duration The interval duration is acquired with the acquisition described above The counter value between two thresholds on is detected scaled and sent correspondingly to the measuring range setting Pulse duration The pulse duration is acquired with the acquisition described above The counter value between the threshold on and the threshold off is detected scaled and sent correspondingly to the measuring range setting The thresholds on and off do usually differ and cause different results of the pulse duration if the signal edges are low depending on the defined thresholds Pause duration The pause duration acquisition corresponds to the pulse duration acquisition with inverted input signal 9 3 2 Status LED at the input The status LED at the respective input indicates the acquisition of a frequency signal This is the case if both switching thresholds of every value are reached threshold on and off The status LED is on flashes in time with the signal frequency if gt the corresponding channel is active and gt the device is in the a
12. 20 50 16 0 05 0 30 0 13 0 30 0 30 0 30 40 40 80 80 120 120 IPETRONIK GmbH amp Co KG ipetronik com 66 92 M SENS M SENS2 M SENS 8 8plus Filter sample rates Hardware filter Frequency Type Channel sample rates Aggregate sample rate Sensor excitation Selectable output voltage Output current Short circuit protection Accuracy at T ambient and voltage output 10 V 423 C 85 C 120 C CAN output Programmable data rate Data in the CAN message Resolution Format Sign Configuration interface Hz Hz kHz mA Yo Bit s Bit IPETRONIK Engine Compartment Measurement IP TRONIK M SENS M SENS2 150 500 8 pole Butterworth 8 pole Butterworth 1 2 5 10 20 50 100 200 500 1000 2000 max 8 max 8 single galvan isolated single galvan isolated off off 2 5 5 0 7 5 2 5 5 0 7 5 10 0 12 5 15 0 10 0 12 5 15 0 max 60 max 60 Current limiting with safety shutdown at overcurrent 0 20 0 20 0 40 0 40 0 60 0 60 2 0 B electrically isolated max 1 MBit s acc to ISO11898 2 8 Byte or 16 Word signed unsigned CAN IPETRONIK GmbH amp Co KG ipetronikcom 6 7 92 M SENS M SENS2 M SENS 8 8plus 7 5 2 M SENS 8 M SENS 8plus General Voltage supply V DC Power consumption typical maximum W Operating temperature range Permanent 1 hour C Notice Storage temperature range C Relative humidity Enclosure Dimensions W H D
13. 20 05 500000 03 40 01 gt 56101035 03 07 10 500000 03 18 02 Interface configuration Define the used CAN driver the corresponding port if several are available as well as the desired baud rate gt Driver gt Port b Baudrate Devices Devices Detect and update the connected devices as well as measuring chains and get information about the device the version the default baud rate and the available firmware Please note that you can only upgrade firmware and not downgrade it gt Detect devices gt Update devices Auto update devices The Update devices function offers the ability to select the desired firmware version The Auto update devices function contains both functions and has no possibility to manually select the firmware IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikccom 44 92 General software description P T RO N K Actions Load the download file cal generated by IPETRONIK which you received via e mail from your IPETRONIK support and download it to a specific device In addition define a specific device type and the corresponding serial number You can create and run an individual download process b Load gt Download Please note that this process can only be run at connecting the device as a single device Entering the serial number is mandatory if the firmware contains a configuration file Config Devices Actions Library
14. 200 50 to 450 16 0 10 K 0 02 of total range 0 60 K 0 12 of total range 1 25 K 0 25 of total range 150 Hz filter typ Butterworth 8 pole 1 2 5 10 1 2 5 10 20 50 100 max 400 2 0 B electrically isolated max 1 MBit s acc to ISO11898 2 8 Byte or 16 Word signed unsigned CAN IPETRONIK GmbH amp Co KG ipetronikcom 59 92 M SENS M SENS2 M SENS 8 8plus P TRON K 7 M SENS M SENS2 M SENS 8 8plus 7 1 Voltage Current acquisition with sensor excitation The M SENS is an universal measuring device for acquiring voltages currents and sensor signals of active sensors It provides 4 or 8 analog inputs and allows the setting of different voltage and current acquisition ranges as well as different channel sampling rates The channels and the separately adjustable sensor supply voltages are electrically isolated to each other to the other channels to the supply voltage and to the CAN bus M SENS 8 M SENS LE M SENS A wv IN L 2 VIN IN x 3 ba ZE weu 7 Ink v POWER GND i 0 LEMO Km Se wel r wi KE 4 VOUT U 5 LGND gt oft 2 5 5 12 57 15 V 45 mA 6 VOUT 7 TEDS The sockets for the inputs are available in Lemo Other sockets and ODU versions Fips on request v IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 60 92 M SENS M SENS2 M SENS 8 8plus P TRON K 7 2 Input cable 670 xxx
15. 234 Height Top without handle mm 242 242 Top with handle mm 292 292 Thickness without with guide mm 8 10 8 10 Mass g 1650 900 Material Aluminum golden brown hard coated Maximum mounting Pcs 20 per plate 10 per plate M THERMO 8 M SENS 4 M FRQ and mixed mountings Maximum mounting Pcs 10 per plate 5 per plate M THERMO 16 M SENS 8 8plus and mixed mountings IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 25 92 302 General system IPErack 10 20 MOD IPERACK 003 302 242 ra vi CH L e O SC ES w Owo ee EE 66 18 A A IPETRONIK Engine Compartment Measurement 252 IP TRONIK IPErack 20 40 MOD IPERACK 001 522 462 9 8660 0 9 8 0 l Se D OA CC gG ie Xi 926 5 IPETRONIK GmbH amp Co KG ipetronikcom 26 92 IP TRONIK General software description 3 General software description 3 1 Requirements Further requirements besides the hardware gt Notebook with CAN interface e g IPEcan or gt PC with CAN interface e g IPEcan or gt M LOG S LOG FLEETlog or IPElog IPETRONIK data logger with real time operating system gt The IPEmotion software for configuring the device and for acquiring the data via the CAN bus The CAN interface must be installed c
16. ANY OTHER PARTY WHO HAS BEEN INVOLVED IN THE CREATION PRODUCTION OR DELIVERY OF THE SOFTWARE BE LIABLE FOR SPECIAL DIRECT INDIRECT INCIDENTAL OR CONSEQUENTIAL DAMAGES INCLUDING LOSS OF PROFITS OR INABILITY TO USE THE LICENSED MATERIAL IN NO EVENT SHALL IPETRONIK S LIABILITY FOR ANY DAMAGES OR LOSS TO LICENSEE OR TO ANY THIRD PARTY EXCEED ANY LICENSE FEE ACTUALLY PAID BY THE LICENSEE TO IPETRONIK FOR THE SOFTWARE c 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 property right provided that i such claim of infringement is not based on any Modification or action taken or suffered by LICENSEE other than the use of the licensed SOFTWARE and documentation in accordance with the terms and conditions of this agreement ii such claim of infringement is not based on any action by LICENSEE in modifying the SOFTWARE pursuant to the terms of Secti
17. Acquisition View Data manager Analysis Reporting Scripting Info 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 project documentations Automate your acquisition sequences Get a basic overview and general support IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 34 92 General software description P TRO N K 3 3 8 Project Da Project one ROE Acquisition View Data manager Analysis Reporting Info Tm RK f New Open Save Saveas Seep Configuration Serial number Manufacturer ID Project name Project manager name E mail address project manager User E mail address user User login hu Description IPEmotion version V03 00 00 File name C Users Public Documents WPETRONIK IPEmotion Configuration M2 Series iwf 27 03 2013 18 05 58 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 35 92 General software description H T RO N K 3 3 9 cs BSeav eRe AR e o Me Proget Signals gr View Data manager Analysis Reporting Info Sa B AC i nr EECH Get sec impart Eer Detect Initialize Display Conf
18. Channel or signal description Reference 56099999 Reference Serial number of the device General Format Sealing Display Thermo Data type Format Type 16 Bit integer signed Data tvpe Resolution and sign of the digital value Novalue EE 8 or 16 Bit signed or unsigned value 0080 NoValue Value which is shown if the current value is invalid Channel type Input s Output General Format Scaling Display Excitation Filter Adjust Sensor mode Scaling see Linear signal scaling Mode Maltage including sensor excitation i Ge i a Mode Selection of voltage and current acquisition sets the default unit V for voltage and A for current Sensor range Sensor range Sensor signal range e g 10 V 0 20 mA Min 100 Max 100 Physical range Unit and range of the physical size e g 0 5 bar Physical range Min l 100 000 Max 100 000 Unit Y General Format Scaling Display Therma Display Displaying area Min Max Defines the y axis range of the graphical Min l 60 00 Max 1370 00 l display for the Fix setting Decimal places Defines the number of decimals of the SE alphanumerical display as well as the current SUSE value display in the signal tab Decimal places Automatic 42 92 IPETRONIK GmbH amp Co KG IPETRONIK Engine Compartment Measurement ipetronik com General software description Step 5 Click Start displaying Start displaying IP TRONIK within the main navigation tab Signals or View for s
19. Enclosure Aluminium nature anodized IP 65 Dimensions W H D mm 106 24 50 Weight g 215 Temperature Voltage input electrically isolated Input voltage max V 50 permanent 100 t lt 2ms Galvanic separation Input lt gt Device supply V 50 temporary 2 ms 200 Input lt gt CAN V 50 temporary 2 ms 200 all inputs V 50 temporary 2 ms 200 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 72 92 Mc THERMO Temperature measuring range Sensor type Resolution Characteristic linearization Cold junction compensation Accuracy at 25 C ambient temperature Drift at ambient temperature 40 C to 85 C 85 C to 125 C Input resistance approx Hardware filter Sensor break detection Voltage measuring range Resolution Accuracy at 25 C ambient temperature Drift at ambient temperature 40 C to 85 C 85 C to 125 C Input resistance approx Hardware filter General input Resolution ADC Calibration of the A D chain Status LED at the input Channel sampling rates Aggregate sample rate CAN output Programmable data rate Data in the CAN message Resolution Format Sign Configuration interface IPETRONIK Engine Compartment Measurement C PIK ppm K ppm K MQ MQ Hz V mV Bit JIN ppm K ppm K MQ MQ MQ Hz Bit Hz Hz Bit s Bit IPETRONIK GmbH amp Co KG IP TRONIK 60 to 13
20. LEGGER e E 89 EEN 90 Feud LIE signal SG ANG ME 90 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 5 92 Important and general information P TRON K 1 Important and general information 1 1 Important information Please follow these instructions before and during the use and application on any IPETRONIK 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 The 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 Adapti
21. Name A Sample jad Sawtooth 1 Sawtooth 2 2 16 23 20 16 23 30 16 23 40 16 23 50 16 24 00 Sirie i 1 0 jew 2 d d 0 040 RI 16 23 39 16 23 41 16 23 43 16 23 45 16 23 47 GSawtooth i Rectangle 1 3 3 14 Info 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 gt Welcome gt Release Notes only in English gt Red thread gt Tips and tricks gt Keyboard handling gt Documentations gt Contact and support IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 38 92 General software description P T RO N K 3 3 15 The first acquisition Step 1 Connect the device and switch it on Connect the device s to a notebook PC and to the power supply correctly poled as described in chapter Modular system structure Cable types and lengths can vary depending on the application Switch on the power supply The devices will start measuring immediately after switching on the power supply The status LED shows the current operating status see chapter Interpretation of the LED display If you use M devices in one system together with SIM devices please note the following advices Connect the cable for the power supply by using the SIM devices not the M devices The M N CAN cables allow a lo
22. To select another location click on the symbol Neu After you have specified the location and auser defined file name click Save to return to the Create support file screen Opening an existing file l Save After clicking on OK a zip file is generated that contains the error description as well as the following information E Save as Runtime version gt System information Windows version computer name free memory on the local drives Print l gt Current configurations acquisition online view script configurations 5 gt Trace files NET C g ve D Options Support file IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 32 92 General software description Create support file Description File IP TRONIK C Dokumente und Einstellungen zw Eigene DateienIPETRONIK IPEmotion SupportiIPEmotion_O001 OK Cancel men If you have any problems while working with IPEmotion send us this support file at support ipemotion com 3 3 6 The quick access bar The quick access bar is integrated in the title bar and contains functions that are frequently used Each of these functions is displayed as an icon B iBBEWAXESTUE AL O En El m H x U T LS K Wi New Ctrl N Open Ctrl O Save Ctrl S Save as Generate Quick print Cut Ctrl X Copy Ctrl C Paste Ctrl V Paste behind Copy to file Paste from file Delete Cl
23. command IPEhotkev also allows the offset adjustment during a running acquisition to a user defined target value reference value The following actions are permitted gt None no offset calibration gt Manually only channels with this status are calibrated with the Manual calibration command gt Group X channels which are assigned to a specific group 1 4 are calibrated with the desktop icon IPEhotkey and the Calibration Group command The channel assignation to one group can also be effected for all devices e g SENS type STG CANpressure mixed in one group A signal based calibration is therefore possible 7 4 5 Status LED am Messeingang Only M SENS 8 and M SENS 8plus devices have a status LED at every input The respective LED indicates the following two states 1 Identification of the respective channel during the configuration The LED flashes if the respective channel or several channels are selected in the configuration software 2 Indication of an overcurrent during measuring The LED is permanently on if the maximum current load of the respective sensor excitation is exceeded IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 65 92 M SENS M SENS2 M SENS 8 8plus 7 5 Technical data 7 5 1 M SENS M SENS2 General Voltage supply Power consumption typical maximum Operating temperature range Permanent 1 hour Notice Storage temperature range Relative
24. duty cycle 500 kHz at 50 duty cycle 250 kHz at 75 duty cycle 10 kHz at 99 duty cycle Periodic duration OU 200 0 200 s Maximum gt Minimum maximum interval duration 200 s minimum interval duration 1 us Pulse duration 0 200 0 200 s Maximum gt Minimum maximum pulse duration 200 s minimum pulse duration 1 us Pause duration 0 200 0 200 s Maximum gt Minimum maximum pause duration 200 s minimum pause duration 1 us Select values gt 1 Hz for the frequency with Sensor range Min This avoids an unnecessary long response time until the value 0 Hz or FS is sent if a signal is missing or has the value approx 0 Hz The maximum response time at 0 Hz is 40 s V D a 9 4 2 Input signal General Scaling Display Input signal Excitation Filter Signal parameters Threshold on 3V Input signal Threshold off 1V Select the upper threshold with Threshold on in a range of 40 V Select the lower threshold with Threshold off in a range of 40 V Edge Positive edge The lower threshold must always smaller than the upper one BON Select an edge for defining the positive or negative signal edge If DC compensation the negative edge is selected the input signal will be inverted The DC compensation disables the direct current component in the signal with a passive high pass 1 pole 0 8 Hz cut off frequency An oscilloscope is recommended for displaying the signal behavior for configuring the sw
25. fact is the variable internal resistance of the input power supplies low excitation lower internal 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 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 15 92 General system P T RO N K 2 3 Synchronous data acquisition 2 3 1 Principle of the synchronous signal acquisition Every device has an internal clock which guarantees an equidistant signal acquisition i e the sampling of the momentary values of the continuous signal takes place in identical intervals This clock synchronizes the A D conversion of all channels within a device but not the channels of other devices in the system The clocks of every device have no reference to each other and differ regarding the clock frequency and phase shifting Reasons for that are components and manufacturing tolerances as well as different environmental conditions 2 3 2 Master clock as higher system clock To counteract those disadvantages a single system clock for all devices Synchronization clock is required The graphic shows that signals with a high sampling rate as well as signals with a low sampling rate are always synchronously detected This guara
26. humidity Enclosure Dimensions W H D Weight Voltage current input Galvanic isolation Input lt gt Device supply Input lt gt Excitation Excitation lt gt Device supply Input lt gt Input Acquisition ranges Voltage unipolar 0 Input resistance Voltage bipolar Input resistance Current unipolar bipolar Input resistance Resolution Accuracy at Tambient 25 C Voltagesn bipolar Voltages unipolar Currents bipolar unipolar Drift at TAmbient 40 C to 85 C 85 C to 105 C 105 C to 125 C V DC C lt lt lt lt lt MQ MQ mA Bit ppm K ppm K ppm K IPETRONIK Engine Compartment Measurement IP TRONIK M SENS HW 2 V 3 20 M SENS2 9 to 36 switch off at voltage c 6 V 3 0 9 0 3 0 9 0 40 120 120 125 An immediate safety shutdown runs at T gt 125 C which is reset at T lt 120 C 55 150 5 95 golden anodized aluminum IP 67 120 41 55 106 43 58 370 380 electrically isolated 100 t 1 ms 200 100 t 1 ms 200 100 t 1 ms 200 100 t 1 ms 200 100 Unominals 500 Ubulse 100 Unominals 500 U puise 100 Unominal 500 Ubulse 100 Unominals 500 U pulse 0 1 0 2 0 5 1 2 5 0 1 0 2 0 5 1 2 5 10 20 30 50 60 100 10 20 30 50 60 100 10 10 0 1 0 2 0 5 1 2 5 0 1 0 2 0 5 1 2 5 10 20 30 50 60 100 10 20 30 50 60 100 10 10 0 20
27. message less data can be transferred although the sum sampling rate has not yet reached the maximum This 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 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH 8 Co KG ipetronikcom 14 92 General system IP TRONIK 2 2 2 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 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 con
28. mm Weight g Voltage current input Galvanic isolation Input lt gt Device supply V Input Excitation V Input lt gt CAN V Input lt gt Input V Acquisition ranges Voltage unipolar 0 V Input resistance MQ Voltage bipolar V Input resistance MQ Current unipolar bipolar mA Input resistance Q Resolution Bit Accuracy at Tambient 25 C Voltagesn bipolar Voltages unipolar Vo Currents bipolar unipolar Vo Drift at T ambient 40 C to 85 C ppm K 85 C to 105 C ppm K 105 C to 125 C range 2 0 1 V opm K 105 C to 125 C range 0 01 V ppm K Status LED at the input IPETRONIK Engine Compartment Measurement IP TRONIK M SENS 8 M SENS 8plus 9 to 36 switch off at voltage c 6 V 30 1120 3 5 11 0 40 120 120 125 An immediate safety shutdown runs at T gt 125 C which is reset at T lt 120 C 55 150 5 95 golden anodized aluminum IP 67 204 41 55 204 41 55 695 695 electrically isolated 100 temporary 1 ms 200 100 temporary 1 ms 200 100 temporary 1 ms 200 100 temporary 1 ms 200 0 1 0 2 0 5 1 2 5 0 01 0 1 0 2 0 5 1 2 5 10 20 30 50 100 10 20 30 50 100 10 10 0 1 0 2 0 5 1 2 5 0 01 0 1 0 2 0 5 1 2 5 10 20 30 50 100 10 20 30 50 100 10 10 0 20 20 50 16 0 10 0 06 0 15 0 10 0 50 0 40 40 40 80 80 250 250 450 1 Identification of the respective channel 2 Over
29. of the channel specific dialogs are shown in this manual with the respective devices IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 40 92 General software description P T RO N K General CAN hardware Options E General Mame IPETRONIK 1 Active CAN system activated for using a FE Name Select any name for the system The name can also be Description System for CAM acquisition modules i automatically generated with the serial number Reference Description Measuring system description Reference CAN hardware General CAN hardware Options BE Medium CAN interface which connects the devices with the Medium vector CAN en PC Notebook CAN bus CAN 1 CAN bus CAN interface bus for communicating only if the interface has several bus inputs Baud rate 500 kEd Baud rate Bus data rate of the CAN interface kBit s Device baud rate Bus data rate of the devices kBit s D baud rate 500 kBd SEN ESS ENE Baud rate initialization IPEmotion initialized the CAN interface with the set Baud rate initialization baud rate 29 bit identifier Use of 29 bit CAN identifier Extended ID for activating 29 bit identifier L the CAN messages General CAN hardware Options Options Synchronized mode i Synchronized mode IPEmotion defines a device as clock generator to which al Automatic CAN ID placing system devices are synchronized to Automatic CAN ID placing IPEmotion
30. options Frequently used Basic settings Appearance Preferred configuration type Hardware configuration CY Signals configuration Data manager Signal database Analysis Accurate acquisition chain required LI Units Expert mode LI MAL PlugqIns View Define your view settings according the following listed points gt 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 ES PEmotion options Frequently used Language selection English Basic settings Kee Skin selection Blue 7 Data manager Displaying tooltips CI Fast Analysis e Normal Units O off MAL PlugIns Font size of the visual elements Dis Transparency of configuration dialogs i ES at Use Windows standard dialogs IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 30 92 General software description P T RO N K Data manager Define the Time channel format as Relative or Absolute This setting is currently not supported for the export into external formats and activate or deactivate the option Merge time channels with equal acquisition rate ES IPEmotion options aque
31. or time period Signal at the measuring input Threshold ON signal input Threshold OFF After a preceding ON pulse first the OFF threshold must be achieved in order to rate the new ON pulse Comparator signal Timeout signal zero indication Comparator output Kee The internal 100 MHz counter determines the pulse and pause duration of the signal between the thresholds The input signal is compared with the defined switching thresholds by using a comparator See image The result is a Square wave voltage similar to the frequency at the comparator output The pulse and the interval duration of this square wave voltage is detected with the internal 100 MHz counter If the timeout expires without any detection of an ON threshold the zero indication will output the user defined minimal value The setting of the timeout is recommended in order to avoid time delays in signal evaluation A correct signal evaluation is supported only with sequent detections of ON and OFF thresholds Frequency The frequency is acquired with the interval duration acquisition described above The reciprocal value of the counter result of the interval duration measurement is scaled and sent correspondingly to the measuring range setting Duty cycle The counter value of the pulse duration is divided by the counter value of the interval duration and correspondingly scaled and sent to the measuring range setting If the frequency is too low or
32. sensor excitation select the initial excitation from the eee list Depending on the device channel different voltages are available The supply is electrically isolated to the input and channels nearby as well as to the device supply Sensor excitation o V 7 4 3 Filter averaging General Format Scaling Display Excitation Filter Adjust Hardware Filter Software Filter Hardware Filter 150 Hz Active LI Type Bessel 7 Averaging S Frequency 6 fmin Averaging Filter Activate the hardware filter for avoiding aliasing effects This is always recommended for measuring with periodic signals Activate the averaging floating average for smoothing unrequested signal interrupts or noise components Activate the software filter for additionally filtering the signal Select the filter type Bessel Butterworth Tschebychev and the cut off frequency 0 1 Hz 495 0 Hz depending on the sampling rate IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 64 92 M SENS M SENS2 M SENS 8 8plus P TRON K 7 4 4 Offset adjust General Format Scaling Display Excitation Filter Adjust Mode None Reference value WEINS ly Manually Group 1 Group 2 Group 3 Group 4 gt V3 12 07 The offset adjustment is supported by the respective device from the following firmware version M SENS M SENS 8 M SENS 8plus gt V3 12 08 The calibration function with a broadcast
33. to ISO11898 2 8 Byte or 16 Word signed unsigned CAN IPETRONIK GmbH amp Co KG ipetronikccom 69 92 Mc THERMO P TRON K 8 Mc THERMO 8 1 Voltage and temperature acquisition Mc THERMO is an universal measuring device for acquiring temperatures from 60 C to 1370 C 76 F to 2498 F with thermocouples of the K type and voltages up to 30 V Each of the 8 analog inputs can be configured with the configuration and measuring software PEmotion The channels are electrically isolated to each other to the other channels to the supply voltage and to the CAN bus 00 YE UD Nee 8 2 Input cable Different input cables are available for acquiring the temperature and voltage signals The thermocouple input cables are listed under the M THERMO p The following cables are used for the voltage measuring with Mc THERMO All Mc THERMO VIN CL cables provide a current limiter for avoiding the danger of a short circuit due to the open ends of the connected thermo plug 8 2 1 Input cable 620 644 xxx Mc THERMO VIN CL Cable open YESS TIN Mc TH VIN 620 644 xxx XXX Lenght dm THERMO SUB MIN rot Mc THERMO CURRENT LIMITER Ted black IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 70 92 Me THERMO IP TRONIK Mc TH VIN CL BANANA 0 645 xxx XXX Lenght dm THERMO SUB MIN rot Me THERMO CURRENT LIMITER 8 2 3 Input cab
34. within the entire acquisition range the non linear characteristic of the thermocouple is adjusted by an internal linearization table An optional impressed current through the sensor allows a sensor break detection which is activated within the software THERMO NiCrNi CH1 CH8 22 mV I NiCrNi 60 C 1370 C 5 2 Input cable 625 506 xxx I j L 01 I P Lo j o IPETRONIK Engine Compartment Measurement IPETRONIK GmbH 8 Co KG ipetronikccom 54 92 u THERMO P TRON K Anschlufbelegung Connection Lemo Stecker 16 pol NiCrNi schwarz 8x SUB MIN Kupplung 2 pol grun Lemo male 16 pol NiCrNi black 8x SUB MIN coupling 2 pol green Pin Nr Bezeichnung Litze Nr Farbe Pin NO Designation Wire NO Colour THERMO IN E OEE A LILI EEEE eee i Eee 2 TH IN1 00 wer o INS N EE E INE E E EE hee Ben INS ND dE L E NIGH EEN NS e AE dE EE L HE Ben TH IN4 NICD nerka nn A adita le ta herrer A E EE E EEA EE eebe e ged EE EE E SES e EE eek neger ek ran EE EPE DEER A THING ND aaao aaa gn KEE E AT 7 PI EE LEE AE L EN E E A E eae tence E E E EE EE a L A l N anaana anaana anaa a aa EEEE EEE EEEE EEEE EEEE EELEE On 18 HINNE WS All input cables are also available in different lengths as well as with further plug configurations 5 3 Specific input settings The break detection and the averaging are activated within the configuration dialog Thermo General Fo
35. 0 Relative humidity Vo 5 95 Enclosure golden anodized aluminum IP 67 Dimensions L H W mm 118 46 32 Weight g 218 Thermocouple input electrically isolated Overvoltage protection V 50 Galvanic isolation Input lt gt Device supply V 100 temporary 1 ms 200 Input lt gt Input V 100 temporary 1 ms 200 Range type K Ni10Cr NiAl C 60 to 1370 Resolution C lt 0 174 13 Bit Characteristic linearization look up table gt 13 Bit Cold junction compensation 2 Pt100 Reference temperature over RTD Accuracy at 25 C ambient temperature and measured temperature of 60 C 1000 C 1000 TC 1370 C 0 035 0 0385 3 K Drift at ambient temperature 40 C 85 C 85 C 120 C ppm K 20 30 Input resistance approx MQ 1 sensor break detection active MQ 10 sensor break detection not active Align of the AD converter before acquiring a value Sensor break detection can be activated with the software Hardware filter Hz 1 0 filter type R C low pass 17 order Channel sample rates Hz 1 2 5 10 20 Aggregate sample rate Hz max 160 CAN output 2 0 B electrically isolated Programmable data rate Bit s max 1 MBit s acc to 1 5011898 2 Data in the CAN message Resolution Format Bit 8 Byte or 16 Word Sign signed unsigned Configuration interface CAN IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 56 92 M RTD2 IP TRONIK 6 M RTD2 6 1 Temperat
36. 00 Hz also the output rate to the CAN bus The system can independently acquire the correct signal but the result is wrong because the sampling rate was set too low This is especially valid for devices with DSP The DSP always acquires the signal with a higher clock rate than the maximum adjustable sampling rate If the signal is sent to the CAN bus with a lower sampling output rate the result does not reflect the initial signal Despite sophisticated measurement engineering errors can occur due to wrong settings If for analog input signal sensor Amplitude low frequency equidistant alias signal sampling points IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 63 92 M SENS M SENS2 M SENS 8 8plus P TRON K 7 4 Extended input settings 7 4 1 Scaling measuring range General Format Scaling Display Excitation Filter Adjust 10 h 5 Sensor mode 2 Mode Voltage including sensor excitation o Scali culator l 0 5 Sensor range 0 2 Min l 100 3 i Scaling Physical iciti GIS i Select the voltage or current acquisition Min 100 000 Select a sensor range Depending on the device channel different ranges are available Define a physical range and the unit with the scaling calculator if required 7 4 2 Sensor initial excitation General Format Scaling Display Excitation Filter Adjust ov 2 54 SV 75 Sensor mt If the sensor rquires a
37. 0038147 0 50 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 91 92 Appendix IP TRON K Example CAN raw value in the Word 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 C 200 C 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 i en Raw data Bit xi x2 y1 y2 m b b 32 6 32768 200 50 0 0038147 125 0019 75 0019 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 92 92
38. 10 kHz 1 duty cycle worst case 500 kHz 50 duty cycle best case 10 kHz 99 duty cycle worst case 1 u or 1 100 fC Filter higher value 1 us 200 s 1 u or 1 100 fC Filter higher value Off 1 Hz 30 kHz filter type 5 pole Bessel 1 5 dB 3 0 dB 0 8 Hz lower cut off frequency 3 dB 1 0 dB 2 0 dB 1 2 5 10 50 100 200 500 1000 2000 5000 Hz max 4 kHz without restriction 2x 5 kHz max 1 CAN ID used 500 kBit s data rate electricllay isolated Off 2 5 5 7 5 10 12 5 15 VDC 60 mA short circuit proof and overload protected CAN 2 0 B electricllay isolated up to 1 MBit s according to ISO11898 2 8 Bit Bvte and 16 Bit Word selectable signed unsigned CAN IPETRONIK GmbH amp Co KG ipetronikcom 85 92 IP TRONIK CANpressure 11 CANpressure 4 af i Oo 11 1 Pressure sensor with CAN output s CANpressure is a pressure sensor with CAN output for relative or absolute pressure measurements with synchronous data acquisition up to 2 KHz sampling rate The temperature is additionally acquired with a PT1000 directly at the piezoelectric element 11 2 Pressure connections F Male thread Dimensions D L1 L2 Fastening torque Wrench size M 10 x 1 male 10 mm 8 5 mm 25 5 mm 17 23 Nm 24 mm 0 94 in M 10 x 1 female 10 mm 9 5 mm 26 5 mm 17 23 Nm 24 mm 0 94 in M 14 x 1 5 male 14 mm 9 5 mm 25 5 mm 17 23 Nm 24 mm 0 94 in M 14 x 1 5 female 14 mm 10 5 mm 26
39. 16 IP TRONIK 4 4 Technical data M THERMO 8 M THERMO 16 General Voltage supply V DC Power consumption typical W Operating temperature range Permanent 1 hour C Notice Storage temperature range C Relative humidity Enclosure Dimensions W H D D mm without with sockets Weight g Thermocouple input Overvoltage protection V Galvanic isolation Input lt gt Device supply V Input Input V Range type K Ni10Cr NiAl C Resolution C Characteristic linearization Cold junction compensation Pt100 Reference temperature over RTD Accuracy at 25 C ambient temperature and measured temperature of 60 C 1000 C 1000 1370 C Drift at ambient temperature 40 C 85 C 85 120 C ppm K Input resistance approx MQ MQ Align of the AD converter Sensor break detection Status LED at the input Hardware filter Hz Channel sample rates Hz Aggregate sample rate Hz CAN output Programmable data rate Bit s Data in the CAN message Resolution Format Bit Sign Configuration interface IPETRONIK Engine Compartment Measurement M THERMO 8 M THERMO 16 HW 2 V 4 80 FW 2 V 3 20 12 24 42 power supply switch off at voltage lt 6 V 1 1 1 2 40 120 120 125 An immediate safety shutdown runs at T gt 125 C which is reset at T lt 120 C 55 150 5 95 golden anodized aluminum IP 67 120 41 55 58 204 41 55 58 320 630 electrically isolated
40. 38 SSC CT e EEN 38 SCHNELL IN 39 3 4 Downloading firmware CANdownload 21 44 BAT e Le 44 3 4 2 Creating a user defined library EE 46 ollha Manual COT INCA UO E 46 344 Automatic COR lte EE 46 3 5 Resetting devices to default values M MOD DEF e nnnne ne nnna nee rna mnn na 48 4 M THERMOZ M THERMO 8 M THERMO pe REENEN EEN 50 4 1 Temperature acqusition with thermocouples sse eennennennznnnnnznnnznnnnnzznnnmnnnnnnnznznna 50 22 Input Eeer 50 43 Ee ele el lee CC 91 4 3 1 Break deteCtion E 51 e SET e ge D 51 ee DAUS LEDA ER ee 51 4 4 Technical data M THERMO 8 M THERMO pi NEEN 52 45 Te chnical data M THERMOZ2 EE 53 S WTHERMO EEN 54 5 1 Temperature acqusition with thermocouples 0 ennnnnnnnnnnen nanna anna nan nn nnn nn nnnnn 54 52 WOU CADIS 625 506 380 rija e i ent i rE 54 53 SSDS CIC input Se ie e CC 55 5 3 1 Break deteCtion BE 55 992 PAV e UL e esnin anin rA Rai A ena Oni AA AAR RI nin apaa aR ora riei 55 e e eine GIU E 56 O dE A oes awe ET EET E 57 6 1 Temperature acqusition with RTDs EE EE eersten eege 57 6 2 Ioputcablep O3d vn 57 6 3 Spedice len E 58 OT OCN eee mee te ean eee renner te een ne ean ee ee E eee ere 58 Co PNG E 58 SZ WEEK ln e et E 59 7 M SENS M SENS2 M SENS 8 8plUS ssesssnnnnzannnnnzzonnnnnnnnznnnenanzznnz DU 7 1 Voltage Current acquisition with sensor excitation sse sseeeeennnnznnnnzennenznnzanenznzzznnni 60 Tie E lee UR e E 61 7 2 1 Input cable 670 807 xxx M
41. 5 716 06 01 2009 16 22 15 726 06 01 2009 16 22 15 36 06 01 2009 16 22 15 745 06 01 2009 16 22 15 56 06 01 2009 16 22 15 66 06 01 2009 16 22 15 776 06 01 2009 16 22 15 786 9 06 01 2009 16 22 15 796 06 01 2009 16 22 15 806 IPETRONIK Engine Compartment Measurement 06 01 2009 16 22 19 526 06 01 2009 15 22 20 626 06 01 2009 15 22 21 626 06 01 2009 16 22 22 626 06 01 2009 16 22 23 626 06 01 2009 15 22 24 625 06 01 2009 16 22 25 526 06 01 2009 16 22 25 526 06 01 2009 16 22 27 626 06 01 2009 16 22 28 626 06 01 2009 16 22 29 626 06 01 2009 16 22 30 626 06 01 2009 16 22 31 626 06 01 2009 16 22 32 626 IPETRONIK GmbH 8 Co KG 06 01 2009 16 22 15 06 01 2009 16 27 15 06 01 2009 16 22 15 06 01 2009 16 22 15 06 01 2009 16 22 16 0 06 01 2009 16 22 16 0 06 01 2009 16 22 16 7 06 01 2009 16 22 16 7 06 01 2009 16 22 16 2 06 01 2009 16 22 16 2 06 01 2009 16 22 16 2 06 01 2009 16 22 16 2 06 01 2009 16 22 16 4 06 01 2009 16 22 16 lt p ipetronik com 3 92 General software description P T RO N K 3 3 13 Analysis e 3 RRG v tase AG Kewanee IPEmotion File Project Signals Acquisition View Data manager 9 Analysis Reporting Sdripting Info Ga a RE G Ion Fix Undo grid Area y t chart Move Back Sync Opt e Layout Elements Zoom Loaded measurement il Cer AA Refer to IPEmotion hlep for further information KH Gr Deet Pages Loaded measurement files Display
42. 5 mm 17 23 Nm 24 mm 0 94 in G Ya male 13 2 mm 9 5mm 25 5 mm 17 23 Nm 24 mm 0 94 in G 14 female 13 2 mm 10 5mm 26 5 mm 17 23 Nm 24 mm 0 94 in N Do not exceed the specified max fastening torquel Pressure transducer relative absolut Overload pressure Burst pressure 0 1bar 0 14 5 psi 3 x FS Full Scale gt 200 bar 2 901 psi 0 2bar 0 29 0 psi 3 XFS gt 200 bar 2 901 psi 0 5bar 0 72 5 psi 3x FS gt 200 bar 2 901 psi 0 10bar 0 145 psi 3x FS gt 200 bar 2 901 psi 0 20bar 0 290 psi 3x FS gt 200 bar 2 901 psi 0 25bar 0 363 psi 3x FS gt 200 bar 2 901 psi 0 50 bar 0 725 psi 3 x FS Full Scale gt 850 bar 12 328 psi 0 100 bar 0 1 450 psi 3 x FS gt 850 bar 12 328 psi 0 250 bar 0 3 626 psi 3x FS gt 850 bar 12 328 psi other pressure ranges Medium compatibility Gases and fluids also fuels and break fluids up to 200 bar 2 901 psi other conditions on request on request IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 86 92 CANpressure IP TRONIK 11 3 Input Principle details Difference between relative and absolute pressure sensors A pressure acquisition is always a comparative acquisition of pressure ratios between two different physical systems acquisition and reference range Relative pressure sensors use a variable reference as counter pressure e g the atmospheric air pressure Absolute pressure sensors acq
43. 70 Thermocouple K type Ni10Cr NiAl lt 0 087 14 Bit at 1 Hz sampling rate numeric interpolated resolution 15 bit PT100 for reference temperature measurement at every input 0 035 of the temperature acqu range at 1 Hz sampling rate 40 40 2 6 Sensor break detection active 4 1 Sensor break detection deactivated 10 R C low pass filter type 1 order can be activated with the software 30 lt 0 92 16 Bit 0 1 of the voltage acqu range 60 mV at 1 Hz sampling rate 50 50 4 1 T 25 C 3 6 Ta 85 C 1 2 Ta 125 C 330 R C low pass filter type 1 order 24 before acquiring a value 1 Identification of the respective channel during the configuration LED flashes 2 Sensor break displaying in acqu mode LED is permanently on 0 033 0 083 0 167 1 2 5 10 20 50 100 max 800 2 0 B electrically isolated max 1 MBit s acc to ISO11898 2 8 Byte or 16 Word signed unsigned CAN ipetronik com 73 92 M FRQ M CNT2 IP TRONIK 9 M FRQ M CNT2 9 1 Frequecy Cycle acquisition incl sensor supply The M FRQ and M CNT2 are universal counters Main applications are the acquisition of inductive sensors in the fields ABS wheel speed and fan speed The following measuring modes are available frequency cycle pulse pause duration and duty cycle The device provides 4 signal inputs with adjustable trigger thresholds 2 voltage ranges for data evaluation and different chan
44. 95 i IPETRONIK Engine Compartment Measurement IPETRONIK GmbH 8 Co KG ipetronikcom 19 92 General system P T RO N K CANpressure Sockets for the CAN bus Stainless steel case and the power supply 2 4 2 Interpretation of the LED display flashing codes M THERMO u THERMO M SENS M FRQ MultiDAQ CANpressure LED display Mode Meaning intervals in seconds Operation Ready for use or data transfer to the configuration no measuring data transfer 0 1 SEN 0 1 System mode Measurement running Operation in system with a Master device 0 9 EAR 0 9 Freerunning mode Measurement running also synchronized Operation in system without a master device 0 25 025 0 25 dE Error Error which requires a restart PWR OFF PWR ON 0 5 05 0 5 Download kernel Device ready for firmware download only at initial update or MA Ee IAN manufacturer reset Download Firmware download flashing frequency corresponds to the transfer of the program lines The LED color depends on the ambient temperature Temperatures gt 100 C 212 F change the color to yellow IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 20 92 General system IP TRONIK Mc THERMO M THERMO2 Mc THERMO und M THERMO2 verf gen Uber eine Mehrfarben Status LED dadurch unterscheidet sich die LED Anzeige von den oben genannten Modulen LED display Mode Meaning intervals in seconds Operatio
45. AQ provides the following number and types of inputs 32 Thermocouple type K 60 C to 1370 C 76 F to 2498 F 8 Voltage current incl sensor excitation up to 100 V 20 mA 2 Frequency period signals voltage up to 200 kHz voltage input range up to 40 V Each of the 42 inputs can be configured with the configuration and measuring software IPEmOtION The channels are electricallv isolated to each other to the other channels to the supplv voltage and to the CAN bus 10 2Input cable Get more details regarding to the respective input cables Thermocouple inputs refer to 4 2 M THERMO M THERMO 16 Voltage current inputs refer to 7 2 M SENS 4 M SENS 8 8plus Frequency period inputs refer to 9 2 M FRQ 10 3 Create and configure MultiDAQ f i Ss cs g d i f e g eT SBERBABY Y Disk ZC er DES IPEmotion ENE ji File Project Signals Acquisition View Data manager Analysis Reporting Scripting Info os SA LL topNer E a Ge ka System Components Import Export Check Adjust Detect Initialize Display Configuration Access View V01 03 00 Name Active Unit Phys Min Phys Max Sensor Min Sensor Max Name gt T LI Voltage current p Temperature l Pressure 7 Export b amp Use as default M Cut Ctrl x Bei Copy CnlAC Paste Ctil V Copy to file B Faste from file u ll IPETRONIK Engine Compartment Measurement IPETRONIK GmbH 8 Co KG ipetronikcom 82 92
46. ER ER ERE ERR R ERE ERE REESE REESE ERE E ERR R LEE REE 72 E Tecnica et eae ects te rN E EEE EE En E EEE EEE 72 SNS PR BENE G UE 74 9 1 Frequecy Cycle acquisition incl sensor supply e eeeseEKKEKKEKNNESNEEKERRRRSKEENKERNERKN ENKEN 74 9 2 Input cable 67 0 858 XXX L ENEE 75 93 Input Ela ele EE E 76 GE DNR MEdsdiriia TRS UNO MEET 76 992 aus LED atthe e E Ti DA Exended IMPULS dai EE 77 9 4 1 Scaling measuring ranges cccccecssesseecceeceeeeeeeceeeeesaeeeseeeeeeeeseeeeseeceeeeessueeaeeeeeeesseaaseeeeeeeeesaes 77 DAL ele E e i EET A T E A E A TT 78 9 4 3 Sensor initial excitation vecciniiccactenrdioctantarnnsecoiaannrceansiondiianiienchenssniuianhncdnabuubasancvageiaseiaaminddanasis 79 GE EE 79 94 39 Mode Ee CT E eee ne eee eee en eee nee ees ee ene ee ee eee eee eee ee 79 CB GR E nelle i E 80 TOMONDA e WE 82 10 1 42 Channel multi input device IIUIUHT REE ERE RER ern nanna nn nnnn nn nn 82 E EIERE ee 82 10 3 Create and configure MultiDAQ WEE 82 10 4 Technical data 84 li GANDIESS I e i b AQ 86 11 1 Pressure sensor with CAN output l ir ter Bi e Ba e ekte kk EEN ERE ERR ERE R ERE ERR TERRE REEL E REEL ERE 86 11 2 Pressure GONMECHOM EE 86 11 3 Input Principle details 87 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 4 92 Content IP TRON K 11 4 Extended input SCT GS oss ars ERE ienien eE EEEn nEeD sN 87 AR CN ea E a A A E EE 87 KE E EEE e e E 88 a a E 88 leo
47. Measurement IPETRONIK GmbH amp Co KG ipetronikcom 11 92 General system P T RO N K 2 General system 2 1 Modular system structure M Modules MultiDAQ CANpressure Fa P CAN Vehicle IPETRONIK Engine Compartment Measurement contains devices of the M2 series M THERMO2 M RTD2 M SENS2 M CNT2 and the M series M THERMO M SENS M FRQ Mc THERMO u THERMO as well as CANpressure Each device is an independent acquisition system and can be used as a stand alone devices as well as in combination with other devices also with SIM series devices in a CAN bus network The signals Temperature Voltage Current Pressure are detected by using corresponding inputs are digitized as 16 bit sign and output as CAN message on the CAN bus Each devices has 4 or 8 inputs depending on the design CANpressure is a 1 channel pressure sensor with integrated acquisition electronics including a CAN controller The acquired pressure as well as the temperature of the pressure tap are directly output as a CAN signal The configuration of all parameters takes place by using IPEmotion and a PC Notebook with CAN interface e g PCMCIA CAN card or USB CAN Interface IPEmotion as well as software applications by different providers can be used for acquiring the signals as CAN message An alternative to the Windows PC system is the use of devices or device combinations with an IPETRONIK data logger M LOG
48. ONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 45 92 General software description P T RO N K 3 4 2 Creating a user defined library CANdownload 2 allows for defining an own firmware library and creating an user defined directory with all firmware files If the access onto the corresponding directory is realized via the normal file access the storage of a text file in the user defined directory is mandatory This file contains a list of the directory content and is named fw Ist The library file name is structured as follows device type download type version cdf The current CANdownload 2 version supports the following download types gt DLK Download kernel gt RDLK RAM Download kernel gt ADLK Application Download kernel gt PIC PIC Firmware gt FPGA FPGA Firmware APPL Firmware gt TBL Table gt CFG Config gt SPC1 Input Processor 1 gt SPC2 Input Processor 2 gt SPC3 Input Processor 3 gt SPC4 Input Processor 4 gt FDLK FPGA Download kernel gt PDLK PIC Download kernel gt CDLK Channel Processor Download kernel b CHN Channel Prozessor Firmware 3 4 3 Manual configuration To update the firmware of devices proceed as follows gt Connect the devices with the power supply Click Detect devices The appearing list contains the current firmware versions of each device The Target FW column shows a required
49. Remote Transmission Request 1 RTR Remote Transmission Request 1 ri 1 rO 1 rO 4 DLC Number of following data bytes 4 DLC Number of following data bytes 64 Data Data bvtes 64 Data Data bvtes 15 CRC 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 Summe 130 Summe 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 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 13 92 General system P T RO N K Access to the CAN 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 gt 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 gt No stations are addressed but messa
50. S LOG FLEETlog IPElog IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 12 92 General system H T RO N K 2 2 Connecting the devices via the CAN Bus 2 2 1 Basics of CAN Bus CAN Standard The communication of the IPETRONIK SIM and M 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 DIAdem 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 ro DLC Data CRC ACK EOF IFS 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 10Bit Start Identifier SRR IDE Identifier RTR 1 om DLC Data CRC ACK EOF IFS recessive Q ecessive 1Bt 11Bits 1Bit 1Bit 18Bits 1Bits4 Bit1 Bit 4 Bit 0 8 8 Bit 15 Bit 2Bit 10 Bit CAN 2 0A 11 Bit Identifier CAN 2 0B 29 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
51. SENS 4 SIM SENS cc scccccceessseessnneeeeeeeeesssseseeeeeeeessssseenaes 61 7 2 2 Input cable 670 810 xxx M SENS 8 8plus nn 61 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 3 92 Content IP TRONIK Ja MNP Principle detalls E 62 7 3 1 Filter in the measurement engineering Why do we use filters 0 s se eeeennnnnzznnnnnzznnnznznnzza 62 7 3 2 Filter in the measurement engineering How do we use filters sse eeennnnnnnzennenzznznnnzznzza 63 Fae Extended AUT SCI e E 64 74 1 Scaling measuring FANGE EE 64 7 4 2 Sensor initial excitation EE 64 LS FLOR E e Ur BE 64 TAA XINSEL AU a on ner eer eee eee ee ee aes eee eee eee 65 7 4 5 Status LED am Messemganmg kk kt et Ek ERE REEL SEERE EHAKAKANEEAEEKNNNNNNAEEEANNEEZNNNNNNZEEZZEZZEI 65 To Technical dala A TE EN EEE EEO Ean EEEREN Nii 66 E NEE 66 7 52 M SENS 8 Neger 68 8 MC THERMO i WE 70 8 1 Voltage and temperature ACQUISITION L nnnenen anna ett kt kk anna ann nntnnnnnnnnnnnn zz nn 70 O2 NO CALI A eenaa a a FE ES Ea 70 8 2 1 Input cable 620 644 xxx Mc THERMO VIN CL Cable open 70 8 2 2 Input cable 620 645 xxx Mc THERMO VIN CL Cable Banana e enennenznnnnnnnnnnnznnnn 71 8 2 3 Input cable 620 643 xxx Mc THERMO VIN CL Cable DN 71 83 Extended input SEIN GS penne eee eee eee nnn eran ee Seen ee eee ee one ee ee er eee 72 os WE ee a e ee eee eer ee ee 72 8 3 2 Break detection and averagimg kk kk LEE R
52. ak detection Adjustment The monitoring of the constant current through the RTD is used to detect a sensor break A distinction between Fullscale by sensor break and real Fullscale value is supported IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 58 92 M RTD2 6 4 Technical data General Voltage supply Power consumption typical Operating temperature range Permanent 1 hour Notice Storage temperature range Relative humidity Enclosure Dimensions W H D Weight RTD input Galvanic isolation Input lt gt Device supply Input lt gt Excitation Input lt lt CAN Input lt gt Input Range Pt100 AD converter resolution ADC SAR Accuracy at ambient temperature Ta 25 Ta 40 C to 85 C Ta 40 C to 125 C Hardware filter Channel sample rates Aggregate sample rate CAN output Programmable data rate Data in the CAN message Resolution Format Sign Configuration interface V DC C C Yo Bit s Bit IPETRONIK Engine Compartment Measurement IP TRONIK 9 to 36 switch off at voltage c 6 V 2 5 40 120 120 125 An immediate safety shutdown runs at T gt 125 C which is reset at T lt 120 C 40 150 5 95 golden anodized aluminum IP 67 106 43 60 400 electrically isolated 100 temporary 1 ms 200 100 temporary 1 ms 200 100 temporary 1 ms 200 100 temporary 1 ms
53. 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 INNO 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 DAMAGES FURTHERMORE IPETRONIK S LIABILITY WHETHER IN CONTRACT TORT OR OTHERWISE ARISING OUT OF OR CONNECTED WITH THIS AGREEMENT OR THE LICENSED SOFTWARE OR DOCUMENTATION SHALL IN NO CASE EXCEED THE PAYMENTS RECEIVED BY IPETRONIK FROM LICENSEE FOR THE LICENSED SOFTWARE AND DOCUMENTATION EXCEPT IN CONNECTION WITH ITS OBLIGATIONS UNDER ARTICLE 5 i IN NO EVENT SHALL LICENSEE BE LIABLE FOR SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES INCLUDING WITHOUT LIMITATION LOST PROFITS LOST DATA OR LOST SAVINGS EVEN IF LICENSEE WAS ADVISED OF THE POSSIBILITY OF SUCH DAMAGES AND li LICENSEE S LIABILITY WHETHER IN CONTRACT TORT OR OTHERWISE ARISING OUT OF OR CONNECTED WITH THIS AGREEMENT OR THE LICENSED SOFTWARE OR DOCUMENTATION SHALL IN NO CASE EXCEED THE PAYMENTS OWED TO LICENSOR FOR THE LICENSED SOFTWARE AND DOCUMENTATION 7 Indemnification Obligations of LICENSEE a LICENSEE shall defend indemnify and hold IPETRONIK harmless from any claims losses expenses fees including attorneys fees
54. anges Voltage Measurement ranges Current Measurement ranges Frequency Period Input voltage IN IN Channel sample rates Voltage supply Power consumption typical maximum Working temperature range Storage temperature range Relative humidity IP Code Ingress protection Dimensions enclosure Weight Thermocouple input bank 1 and 2 Sensor type Measuring range type K Ni10Cr NiAl AD converter resolution Linearization look up table resolution Cold junction compensation Input resistance Input channel status LED Align of the AD converter Sensor break detection Hardware filter Channel sample rates Total sampling rate per bank Voltage Current input bank 3 Voltage ranges Voltage unipolar 0 Input resistance Voltage bipolar Input resistance Current unipolar 0 bipolar Input resistance IPETRONIK Engine Compartment Measurement IP TRONIK 60 C to 1370 C 76 F to 2498 F Covering input signals 0 1 V to 100 V 0 20 mA 20 mA up to 200 kHz 10 us 100 kHz max 100 V short time 1 ms 200 V 1 2 5 10 50 100 200 500 1000 2000 Hz 6 VDC 36 VDC 6 0 W 17 0 W max load on all excitations 40 CT 85 C 40 F 185 F 55 C 125 67 F 257 F 5 95 IP 67 DIN EN 60529 L261 mm x W116 mm x H55 mm W10 28 in x W4 57 in x H2 17 in 1950 g 4 30 Ib 32 inputs electrically isolated K Type thermocouple
55. ation tab Acquisition or View for storing the data on a local medium First of all a storage group is required which contains at least one signal If required define individual trigger conditions to start data storage eD SBBaSBY Bee SS Sc eege Pr ject Signals Acquisition a et CG Setup A my Calculations Di Formulas ZA Scalings a Variables Number Status Text Saving S m T Monitoring Limit values EE ll Ranges A e Analysis FFTs Classifications Control Function ge PID controller Routers 4 BX Sequence c Soe aa FE Sequence b Elements View Data manager Analysis 56200422_1 56200422_2 56200422_3 56200422_4 IPETRONIK GmbH amp Co KG Control 55001415 175 28 IPEmotion Reporting Scripting Info 7 D 1956101035 1 56001415 1 56001415 2 56001415 3 4 om ipetronik com e 00 00 45 jd ka 43 92 General software description P T RO N K 3 4 Downloading firmware CANdownload 2 The firmware of the IPETRONIK M devices is subject to continuous developments You can use these developments for your M devices Therefore an update of the devices processor software Firmware is required 3 4 1 User interface CANdownload Interface configuration Driver IPEcan Fort f Baudrate 500 kBit s Devices Actions Library Detect devices Update devices Auto update devices Device Version Default baudrate Target Fw 03
56. automatically assigns the identifiers of the CAN messages to a set rule Names out of serial numbers Accelerated initialization Only parameters which have been changed are reinitialized Names out of serial numbers Automatically generates the channel signal name out of the serial number of the respective device and the channel number Accelerated initialization General settings and information about the device e D Rue A E ES IPEmotion jw File Project Signals Acquisition View Data manager Analysis Reporting Scripting Info co EA UD GR mea Cu N A i 4 B Gn HHO System Components Import Export Check Adjust Detect Initialize Display Access Yie VO1 03 00 Name Active Unit Phys Min Phys Max Sensor Min sensor Ma Ki Name L OCC COSCO OC OC CODE EEN EREEE ERR ENE ENEE ERKENNEN EE een PETIT A BR IPETRONIK CAN 1 Si 56001415 2 56200422 1 56001415 3 General 56101035 i 56001415 4 56001415 5 56001415 6 Name Select any name for the system The name can also be automatically generated with the serial number Description Device description I Lal Se Sg m e Referenz CAN bus system for communicating with General Format Scaling Display IPEmotion Active E Sampling rate Signal acquiring rate for all channels sampling rate Name 56001415 1 Description Reference IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp C
57. ce requires a snap in fastener IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 24 92 General system P T RO N K 2 6 6 IPErack quick assembly system for M Series devieces gt Carrier system containing two exchangeable device plates b 2 different sizes available gt per device plate up to small design 20 10 devices of the M THERMO 8 M SENS 4 or M FRQ type or 10 5 devices of the M THERMO 16 or M SENS 8 M SENS 8plus type gt Mixed mountings of the listed devices possible d LE ven DE code SS gt Use of devices without a dovetail connection at the back by using mechanical adapter plates gt Safety pins on both sides avoid the accidental extraction of the device plates gt Robust carrier system and device plates out of milled aluminum gt Different transfer and elongated mounting holes for fastening the system at the location Carrier system IPEcrack 20 40 IPEcrack 10 20 Basic plate Length Width mm 522 180 302 180 Side plate Length Width mm 237 124 237 124 Basic plate Side plate Thickness mm 10 10 Height carrier system without with device plates mm 247 302 247 302 Weight carrier system without device plates g 2180 1800 with two device plates g 5480 3600 Material Aluminum black anodized Slide in for device plates with two safety Pecs 2 2 pins each Device plate with carrving handle Big plate Small plate Width mm 454
58. 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 modified by a subsequent written agreement signed by IPETRONIK To the extent that there is any conflict between this Software License Agreement and any IPETRONIK purchase order or other written agreement for the purchase of IPETRONIK parts or products the terms of the purchase order or written agreement control IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 9 92 Important and general information IP TRON K 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 b 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 c This Software License Agreement will be governed by the laws of the State of Michigan without regard to its c
59. cquisition mode acquiring data and gt the switching thresholds are correctly defined Due to the slowness of visual proceeding only frequencies under approx 10 Hz can be seen as a flashing The LED is permanently on at higher signal frequencies 9 4 Extended input settings 9 4 1 Scaling measuring ranges General Scaling Display Input signal Excitation Filter General Scaling Display Input signal Excitation Filter Sensor mode Sensor mode Mode Frequency Mode Frequency Frequency Sensor range Duty cyde Period duration Sensor range Period duration m Pulse duration ERE Pulse duration Pause duration Pause duration Physical range Physical range Event counter Min 1 Max 200000 Mm 1 Max 200000 Scaling M FRQ Scaling M CNT2 Scaling Select the mode for frequency or period acquisition Select a sensor range Depending on the device channel different ranges are available Define a physical range and the unit with the scaling calculator if required IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 77 92 M FRQ M CNT2 IP TRONIK Mode Ranges Remarks Min Max Unit Frequency 0 200 0 200 kHz Maximum gt Minimum minimum signal frequency 0 03 Hz maximum signal frequency 200 kHz Duty cycle O 100 0 100 Maximum 2 Minimum Range minimum signal frequencv 0 03 Hz 0 01 to 99 99 maximum signal frequency 10 kHz at 1 duty cycle 250 kHz at 25
60. current displaying in acqusition mode IPETRONIK GmbH amp Co KG ipetronikcom 68 92 M SENS M SENS2 M SENS 8 8plus Filter sample rates Hardware filter Frequency Type Channel sample rates Aggregate sample rate Sensor excitation Selectable output voltage Output current independent from the output voltage setting Initial current at an output voltage of 2 5 or 10 0 V 5 0 or 12 5 V 7 5 or 15 0 V Derating The sum of the maximum output power of the sensor supplies is reduced with the increasing ambient temperature by this percentage per Kelvin Short circuit protection Accuracy at T ambient and voltage output 10 V 40 C 23 C 85 C 120 C CAN output Programmable data rate Data in the CAN message Resolution Format Sign Configuration interface Hz Hz kHz mA mA mA mA YIK Vo Vo Vo Bit s Bit IPETRONIK Engine Compartment Measurement IP TRONIK M SENS 8 M SENS 8plus 150 8 pole Butterworth 1 2 D 10 20 50 100 200 500 1000 2000 max 16 at 1 MBit s data rate without additional bus load of further devices dual electrically isolated off 2 5 5 0 7 5 8 0 10 0 12 5 15 0 25 25 max 30 max 30 max 40 max 40 max 45 max 45 1 25 from 85 C ambient temperature Current limiting with safety shutdown at overcurrent 0 50 0 40 0 30 0 25 0 50 0 40 0 70 0 50 2 0 B electrically isolated max 1 MBit s acc
61. e Sensor excitation Selectable output voltage Output current Independent from the voltage setting Accuracy at ambient temperature 23 C 85 C 120 C CAN output Programmable data rate Data in the CAN message Resolution Format Sign Configuration interface ppm K ppm K ppm K dB dB dB dB Hz kHz kHz kHz kHz mA Bit s Bit IPETRONIK Engine Compartment Measurement IP TRONIK M FRQ M CNT2 0 01 100 ppm 1 5 2 5 5 0 filter off 1 Hz 30 kHz 5 pole Bessel EL 2 3 0 0 8 1 0 2 0 1 2 5 10 20 50 100 200 500 1000 2000 5000 max 5 without restriction max 4 x 2 max two CAN IDs busy max 4 x 5 only one CAN ID busy 1 MBit s max 2 x 5 only one CAN ID busy 500 kBit s electrically isolated off 2 5 5 0 7 5 10 0 12 5 15 0 max 60 Short circuit proof with safety shutdown at overcurrent and 10 V output voltage 5 0 46 0 47 0 2 0 B electrically isolated max 1 MBit s acc to ISO11898 2 8 Byte or 16 Word signed unsigned CAN IPETRONIK GmbH amp Co KG ipetronik com 81 92 MultiDAQ IP TRONIK 10 MultiDAQ 10 142 Channel multi input device T U I f MultiDAQ is a 42 channel multi input module for data acquisition of temperatures through K Type thermocouples voltages currents incl sensor excitation and frequency signals Each input channel is equipped with a separate LED to indicate signal sensor status MultiD
62. e 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 agents 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 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 7 92 Important and general information P TRON K SOFTWARE or any derivative works of the SOFTWARE in whole or in part except with the prior written agreement of IPETRONIK li Copy translate reverse engineer decompile disassemble the SOFTWARE in whole or in part iii Except as provided is Section 2 d create derivative works based on the SOFTWARE in whole or in part iv Remo
63. eaas 19 2 4 2 Interpretation of the LED display flashing codes E 20 2 4 3 Reverse polarity protection a ia ia iva ainncsnehiausuinchoniehimeseanonstianenauimasineanipiniaimatbaniants 21 WE e e 21 26 Mechanical te 22 2 6 1 Differences of the M design 22 2 6 2 Mounting brackets for M case Version 2 BR and M2 Case eeennnnnnnnnnnnnnnnnnnnnnnnnna 22 2 6 3 Mounting brackets for M THERMO2 ssir ERE ER REESE REESE REEL E ERE ERR REE ERR REEL 23 264 Adapter Ee 23 2 6 5 THERMO snap in fastener edte eieeeeiued die deeg gegeedE Seege benacinseeses ses NERE ELERS RER LEE ERR Rk Res 24 2 6 6 IPErack quick assembly system for M Series devIeCes ss sesssennnnzzennnnzzznnnnnznnnnzznzznznzzzznnni 25 3 General software description ccceseeeseeeeseecnneecnseecenseneneeseneeees 27 dck REGUN eneee EEEEEEe 27 3 2 Supported CAN lte 27 3 3 Configuration with IPEmotion general isqra i i kst k RE ERE ERE E REE 28 SC NR En Ee Tee EE 28 3392 l l E EE AE E E EER 29 3 3 3 The file ln E 29 334 Using N EIERE eelere 29 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 2 92 Content IP TRONIK 3 35 Creating Supp Or file ii ied i ea d Ricendseteneneaee 32 3 3 6 The quick access E 33 3 3 7 The main navigation tabs msieken et iii kt k kk kk E ERNE EL ER RER E REESE REESE REESE REESE REELLE ERR R REE ES 34 SE re E 35 SEET 36 3o10 e NEA T EE NEEE EEEIEE E T EEEE 36 Sa KW 37 dodla Bar manado E of SC Dn RE ul
64. ean Undo Ctrl Z IPETRONIK Engine Compartment Measurement KAN ala amp O Ola Create a new configuration Open an already existing configuration Save the actual configuration Save the actual configuration under a new name Automatically generating an new configuration with the actual connected devices Directly printing on the standard printer Cut the currently selected elements Copy the selected elements into the clipboard Add elements from the clipboard Paste elements from the clipboard behind Copy the currently selected elements to a file Add elements from a file Delete the selected elements Delete all subordinate elements Undo the last step s IPETRONIK GmbH amp Co KG ipetronik com 33 92 General software description P T RO N K Fa Redo he Properties Options o Help m About Ctrl Y Redo undone actions Open the configuration dialog Show edit general IPEmotion options F1 The online help will be opened Show information about IPEmotion edition license options 3 3 The 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 Acquisition View Data Analysis Reporting manger Project Signals
65. els signals of the device in the right window Channels BAD vi Pm Z al 27 7 M2 Series IPEmotion File Project Signals Acquisition View Data manager Analysis Reporting Info Ss E t n KHBO System Components Import Export Check Adjust Detect Initialize Display Y SE K GE Configuration Access VOLD8 01 Active Unit Phys Min PhysMax Sensor Min Sensor Max Sampling rate A Name 57800352 1 ES 50 00 sma Channels 10Hz E 57800352 2 z 57800352 M THE2 57800352 3 40 00 1370 00 80 1370 10 Hz 38100415 M RTD2 57800352 4 2 60 00 1370 00 l 6 1370 10 Hz d ek isa Tu 578003525 60 00 1370 00 1370 10 Hz EE 57800352 6 z 60 00 1370 00 l 6 1370 10 Hz 57800352 7 60 00 1370 00 1370 10 Hz General CAN hardware Options Systems Active E Name IPETRONIK CAN 1 Description System for CAN acquisition modules Reference JIPETPONIK CAN Configuration dialogs Depending on having selected a system a device or a channel different tabs are available in the configuration dialogs for further settings Settings of the scaling as well as the activating of channels can also be configured directly in the channel table all other settings can only be set with the configuration dialogs Every channel has configuration parameters which do exist for all channel and device types e g General Format Display and those which do always differ because they are channel specific e g sensor Filter Adjust The descriptions
66. ges gt Every message is characterized by its name Identifier gt The less the identifier the higher the message priority gt A message can transport up to 8 8 Bit 64 Bit 8 Byte user data whereas each message requires 110 Bit or 130 Bit Extended ID gt Depending on the hardware and the bus line length up to 1 MBit s can be transferred The following important conclusions result from the properties above gt The less the bus load the less the probability of a Bus access conflict you can call this a real time capable area gt A 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 gt Not sent 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 gt the bus line length gt the branch line length to the CAN stations gt the bus lines quality and the plug contacts gt the bus line design twisted single or two wire bus b bus connection structure and gt type and strength of external perturbations f CAN messages are not completely used e g only three 16 bit values instead of four per
67. he AD converter and software filter which cannot process the signals Every sampling system follows Shannon s sampling theorem whereby one must at least sample with twice the signal frequency Otherwise aliasing effects can occur whereas the acquired frequency is considerably lower than the actual signal see image below But this theoretic view is not sufficient for practical applications because the systems compared to lab devices do not have FFT analyzers Fast Fourier Transformation for calculating the initial frequency The hardware filter frequency of IPETRONIK devices with voltage inputs VIN SENS is approx 1 10 of the maximum sampling rate e g 100 Hz at 1 kHz max sampling rate Why do we additionally filter with DSP The hardware filter at the input excludes a distortion by frequency spectra above the system limit with the maximum sampling rate Depending on the application it can be required to lower the cut off frequency Example M SENS devices provide a switchable hardware filter with 150 Hz cut off frequency If the cut off frequency is e g 50 Hz interrupting frequency spectra of devices with additional software filter in the range between 50 Hz and the hardware filter frequency can be filtered with DSP The filter frequency can be configured in defined steps up to the hardware filter frequency Aliasing effects in spite of hardware and software filter example a 100 Hz signal is acquired with a sampling rate of 1
68. identifies the cable type and length e g 620 502 030 Cable series Consecutive Length in dm 030 e g M CAN number 30 dm 3 m IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 21 92 General system P T RO N K 2 6 Mechanical accessories 2 6 1 Differences of the M design The extension of the M series by the new M THERMO 16 and M SENS 8 devices requires new connection mechanics to meet the higher practice demands The new devices are exclusively available in the 2 version of the dovetail mechanics identification BR The existing devices M THERMO 8 M SENS 4 and M FRQ are available in the 1 version as well as in the 2 version of the connection mechanics A mechanical compatibility between the devices is guaranteed at using corresponding adapters If the devices of the same version are connected only one adapter is required as a bridge between both connecting systems M case V1 horizontal Longitudinal nut and dovetail horizontal Holes for screw mounting Top rear view Bottom rear view M case V2 BR optional lateral mounting of the brackets Transverse nut and dovetail vertical Be Top rear view Bottom rear view 2 6 2 Mounting brackets for M case Version 2 BR and M2 case The brackets are used for the screw fastening of the devices with new connection mechanics Each device requires 2 brackets which allow different mo
69. iguration a 60 00 137000 ep S A 60 00 425m on on 58100419 M RTD2 1 57800352 4 k 60 00 Channels 58700658 M SEN2 1370 00 en Systems Lee ien Active 1370 00 l 60 Name 57800352 2 DS 3 3 10 Pia g BREA Al Cato Formulas we kb Storing rate Variables Number 57800352 2 Bo ee 4 A i d General Saving storage Directory Format Classifications Prefix IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 36 92 General software description a G FI Frequency Sine 1 pI L bk Fi View Data manager e 1 Page Y Screen pages 1 0 1 0 17 11 06 17 11 10 Ee Si IP TRONIK Amp litude sine 1 View i Data manager Ana D Sawtooth 1 Sawtooth 2 Rectangle 1 Rectangle 2 sine 1 HOTTE General EI annelets O Detailed information on the loaded measurement files Index Time 100Hz Sawtooth 1 Time 1Hz Sample iad Sample iad Sample iad Sample iad Sample iad 06 01 2009 16 22 15 646 06 01 2009 16 22 16 626 20 06 01 2009 16 22 15 06 01 2009 16 22 15 656 Refer to IPEmotion hlep for further information E PB d m in bw TINA a 06 01 2009 16 22 15 666 06 01 2009 15 22 15 576 06 01 2009 16 22 15 686 06 01 2009 16 22 15 696 06 01 2009 16 22 15 706 06 01 2009 16 22 1
70. itching thresholds on and off If the sensor signal does not exceed the threshold on or fall below the threshold off no exact acquisition is possible In this case the value does not change although the revolutions per minute increase and the sensor is connected correctly Correct the threshold values in the configuration and run a test acquisition Please note that a lot of speed sensors send an almost ideal square wave signal in the lower frequency range but the graph changes with increasing frequency gt saw tooth This can also be caused by external capacities e g a long connection cable to the sensor IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 78 92 M FRQ M CNT2 IP TRONIK 9 4 3 Sensor initial excitation General Format Scaling Display Input signal Excitation Filter Sensor excitation in V Sensor If the sensor rquires a sensor excitation select the initial excitation from the list Depending on the device channel different voltages are available The supply is electrically isolated to the input and channels nearby as well as to the device supply 9 4 4 Filter General Format Scaling Display Input signal Excitation Filter Hardware filter Hardware filter D Hz i Filter Select the hardware filter for avoiding aliasing effects This is always recommended for measuring with periodic signals 9 4 5 Mode M CNT2 General Format Scaling
71. le 620 643 xxx Mc THERMO VIN CL Cable BNC S F Em A Mc TH VIN BNC 620 643 xxx XXX Lenght dm THERMO SUB MIN rot BNC Socket Mc THERMO CURRENT LIMITER U IN IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 71 92 Mc THERMO IP TRONIK 8 3 Extended input settings 8 3 1 Sensor mode General Format Scaling Display Thermo Sensor mode Mode Thermo element Scaling calculator Thermo element voltage Sensor range Min 60 T Max Scaling Physical range Select the sensor mode for voltage or temperature acqusition Min 60 00 Max 1370 0 Thermocouple Temperature with thermocouple K type Range 60 C 1370 C Voltage Voltage Range 30 V 30 V 8 3 2 Break detection and averaging General Format Scaling Display Thermo Thermo Break detection Break detection Activates the sensor break detection Averaging Activates the floating averaging out of Averaging previous averages 8 4 Technical data General Voltage supply VDC 6 to 36 Power input typical W 1 1 Working temperature range C 40 125 Continuous operation An immediate safety shutdown runs at T gt 125 C which is reset at T lt 120 C Storage temperature range C 55 150 Relative humidity 5 95 Input sockets Miniature thermocouple sockets Front membrane color acc to DIN IEC 584 green Front membrane color acc to ANSI MC 96 1 yellow
72. ly required when transferring several files to one device IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 47 92 General software description P T RO N K 3 5 Resetting devices to default values M MOD DEF IPETRONIK offers the ability to simultaneously reset single or several devices to the respective default values by using the default plugs M MOD DEF 100 M MOD DEF 200 This is recommended if devices are set to different and unknown baud rates for the data transfer Or if a single device which has not been configured correctly must be reset M PWR 620 561 xxx Spannungsversorgung mind 9 V max 55 V DC M CAN 620 560 xxx Preparation gt Connect the devices and the M MOD DEF plug as shown above gt Switch on the power supply How to proceed M MOD DEF 100 einschalten LED oder d LED Blinkt 4Messufig aktiv min 10 s eingesteckt M DEF Schritti aus este kt ti 5 N 15 Se 25 Sp Zeit s The proceeding is divided into three steps gt The default plug must be connected during booting gt Please note the chronology for a successful reinitialization IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 48 92 General software description P T RO N K Brief instruction for proceeding Valid for firmware with release date gt 12 2006 1 Connect M MOD DEF 100 plug Switch on voltage supply LED light
73. n IPEmoton version VO3 00 00 File name C Wsers Public Documents IPETRONIK WPEmotion Configuration M2_Series iwf Date 27053015 15 20 32 Messages Message window Symbol Time Type Message IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 28 92 General software description IP TRON K 3 3 2 The title bar The title bar contains the quick access bar the software name as well as a tool bar with the following functions IPEmotion we Minimize the Ribbon Ctrl F1 Only show tab names on the ribbon el Help FI Open the documentation IPEmotion pdf Le Minimize Minimize the application window of IPEmotion HE Maximize Make the application window visible on your desktop and refit the prior size me ES Close Close the application of IPEmotion 3 3 3 The file menu Click on the File button to open the application menu I TD The application menu contains basic functions as New Open Save Save As Runtime version Print aki e Recent projects list and Close as well as further properties such as View Options Support file and About Di D The right partial view of the application menu contains a list of the recently used projects bei Sp The View function contains the menu points Message ker ren window and the Reset command Show or hide the message window and reset the displaying i Runtime version configuration to the default parameters Sz lal Compare _ Fi P
74. n Ready for use or configuration data transfer no measuring data transfer 0 9 SSC 0 9 Freerunning mode Measurement running also synchronized IN Error Serious error happend during configuration measurement initialization or communication 0 5 CAN error Error in CAN bus communication Neal Init error Error in basic initialization of the module Current configuration does not match to to the device firmware 2 4 3 Reverse polarity protection All M devices have an electronic reverse polarity protection and an additional inrush current limitation The reverse polarity protection shields the complete excitation range of the corresponding device and avoids damages due to lines changing PWR red and PWR GND black The inrush current limitation avoids too high inrush currents which reduce the durability of switches and relays contacts and avoids the burning of the plug contacts if cables of the power supply are plugged under tension 2 5 Cables In order to electrically connect the devices as well as the sensors cables with different lengths and various plug configurations are available System cable Connect the devices at the CAN bus and contain the data lines CAN bus and synchronization lines as well as the power supply I O cable Connect the device input with the respective sensor The cables are open ended with lengths of 3 m 6 m and 10 m 9 84 19 68 32 8 ft Cable number The cable part number
75. nd explanation 1 The linear equation y m x b shows the mathematical connection 2 Calculate the m slope within any input range signal and the related output range physical value Calculate the constant 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 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 90 92 Appendix IP TRO N K 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 l bar Excitation xi x2 vi y2 m b b 4 5 0 5 20 0 4 2 2 Example CAN raw value in the Word unsigned format as 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 C 200 C 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 c l e kt pops 100 See eee eee 18384 24576 32765 40980 49152 57344 85536 Ee ee ee heel aksler ee ee ee ee ee eee ee Raw data Bit x1 x2 y1 y2 m b b 65535 0 200 50 0
76. nd the unrequested signal is continuous Depending on the measuring task the following filter properties are to be respected gt Useful signals below the cut off frequency are also damped A damping of 3 dB at the cut off frequency means a reduction of the initial signal of 30 gt Filters always cause a time shifting phase shifting between the initial signal and the filtered one The value of the phase shifting depends on the filter type e g Bessel Butterworth Tschebyscheff and the filter order pole number UA IM WW Signal frequency 12 5 Hz black Ch2 without any filter red Ch3 Filter 30 Hz The image above shows the result of two inputs with the same input signal of 4 V amplitude and 12 5 Hz frequency Channel 2 black without filter Channel 3 red with 30 Hz hardware filter Bessel type l Channel 3 clearly shows the damping the phase shifting as well as the start oscillation of the filter IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 62 92 M SENS M SENS2 M SENS 8 8plus P TRON K 7 3 2 Filter in the measurement engineering How do we use filters Modern systems offer qualified hardware filters and if applicable additional software filters Digital Signal Processor DSP Although today s Microprocessors provide a high processing power the use of hardware filters is still essential Especially when users cannot exclude that periodic signals can pass t
77. nection or as close as possible to the devices with high power requirements rather than at the beginning or end of the system chain Additional system supply via a T connection at a suitable position 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 U RxI R 2 x Reable tam X Length cable m E Poevices W V Devices V For estimating the voltage drop a resistance of 50 mQ m for the M CAN cables and 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
78. nel sampling rates The channels and the separately adjustable sensor supply per channel are electrically isolated to each other to the other channels to the supply voltage and to the CAN bus TEDS 6 NC 7 TRONIK LI P The sockets for the inputs are available in Lemo Other sockets and ODU versions Fips on request v IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 74 92 M FRQ M CNT2 P TRON K 9 2 Input cable 670 858 xxx l Mmmw 770 EEE Anschlufbelegung Connection Lemo Stecker 1B 7 pol Schwarz Lemo male 1B Z pol black Pin Nr Bezeichnung Litze Nr Farbe Pin NO Designation Wire NO Colour EEN IK EEN T white 000 L GND 2 brown Eh JEE red a A H POWER nn nna 4 black NE Eee ED MENER POWER GND en J green LL Lo A USA 6 yellow FI LP f violet Ghassis a Se 9 Shield thick blue K All input cables are also available in different lengths as well as with further plug configurations IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 75 92 M FRQ M CNT2 IP TRONIK 9 3 Input Principle details 9 3 1 Measuring method The analog and digital input signal is evaluated with a programmable comparator threshold switching threshold hvsteresis and the following 48 bit counter The FPGA and the digital signal processor DSP convert the respective counter values online into a frequency output and duty cycle
79. ns Ausschalten der Festplatte Aktiv System properties Device properties a Properties E a Properties General General Active Active NIK CAN 1 Name 7300352 M THE2 on System for CAN acquisiti Description T Sampling rate CAN hardware Extended CAN bus CAN 1 j Front number 13 Baud rate 29 bit identter Ignore the device Device baud rate J0 ked Baud rate initialization Options Information Synchronized mode Hardware version Automatic CAN ID placing Start CAN ID IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 18 92 General system P T RO N K 2 4 General device description 2 4 1 Properties and structure The devices have the following properties in common gt different channel sampling rates depending on the device up to 2 kHz gt all channels are completely electrically isolated gt output of the 16 bit data on the CAN bus according to ISO 11898 2 gt extended operating temperature range 40 C to 125 C 40 F to 257 F gt very compact case in IP67 protection gt dovetail guide for connecting M series devices without tools Dovetail guide for Anodized aluminium connecting devices case IP 67 with without tools mounting holes M Series modules THERMO Anodized aluminium case IP 67 E operating status Watt _ JE ji and the power supplv ODDE P 3 Input female d KA multi connector ON r f f 1
80. ntees an simultaneous acquisition of values which are stored at one date Signal Sampling frequency 1 1x sampling rate Sampling frequency 2 x sampling rate Sampling frequency 3 4x sampling rate Data are detected with different data rates but are always synchronous and compara ble IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 16 92 General system P T RO N K 2 3 3 Measurement systems without master clock The non synchronous acquisition seriously influences the comparability and therefore the plausibility of the acquisition especially at long term acquisitions The time variation of the single clock generators sums with the acquisition time i e the longer the acquisition the higher the deviation If the frequency deviation and the drift direction of the different clocks is unknown you cannot assume that all values which are assigned to a specific value at the time axis did really exist at that moment 2 3 4 IPETRONIK measurement system with without synchronization clock M CAN Sub D tal 502 xxx d j a TIT ai M CAN 620 560 xxx jog la JR L KEY Malli L PEAK CAN IPETRONIK ae z M CAN 620 560 xxx P PETRONIK IPEcan USB lt gt CAN E salia rte Vector CANcardX XL PCMCIA lt gt CAN a ECAN cables Power supoly he ee S 42V 55 V DC Ju ran 620 561 xxx IPETRONIK Engine Compartment Meas
81. ntly use CH Frequently used Time channel format e Relative Basic settings mi absolute Appearance Data manager Merge time channels with equal acquisition rate 1 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 ES IPEmotion options Frequently used Points per diagram graph Basic settings i Speed Quality ppearantce Data manager Analysis Units Get an overview according the common physical values and their respective unit and edit them 1 TPEmotion options RESCH Physical factor Unit a Basic settings Appearance Mass kg Data manager Time 5 Analysis Electric current I HEE Temperature SS eee Molar amount mol IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 31 92 General software description P T RO N K Plugins This Plugin is for all IPETRONIK CAN bus devices Activate or deactivate the hardware systems to be used IPEmotion options ues Frequently used ae Active Title Version Description Manufacturer Basic settings e Appearance G IPETRONIK X 01 04 00 17126 IPETRONIK Ethernet devices IFETROMIK Data manager Import el 2 IPETRONIK LOG 93 51 00 28951 Beta IPETRONIK Data logger M LOG 540 IPETRONIK Export LI ADVANTECH 01 00 00 20913 ADVANTECH bus coupler IFETRONIK Analy
82. o KG ipetronik com 41 92 IP TRONIK Select in the left window Systems the corresponding device for listing all channels signals of the device in the right window Channels and showing the tabs for the configuration dialogs General software description General Extended Information Extended Front number 99999 Front number The part of the serial number which is imprinted on the device front If the Clock Free devices are manually configured without connected hardware enter the front number of the device for automatically creating the channel names if Names Channel balance out of serial numbers is active Clock Type od data detection Free with internal hardware clock synchronized common hardware clock for all system devices Channel balance Offset calibration of the respective measuring chain of the device channels General Extended Information Information Calibration date Unknown i i i i Calibration date Date of the last device calibration Hardware version Hardware version of the device Firmware version Firmware version on the device Hardware version Unknown Firmware version Unknown General configuration dialog General Format Scaling Display Thermo General Active Active Kanal zur Verwendung aktiviert ou 56099997 1 Name Select any name for the system The name can also be Description Analog thermocouple acquisition input i automatically generated with the serial number Description
83. on 2 d iii 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 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 8 92 Important and general information P TRON K v such claim of infringement is based only on the licensed SOFTWARE and documentation as provided to LICENSEE In the event of any infringement claim for which IPETRONIK is liable pursuant to section 5 a IPETRONIK may at its sole option and expense i procure for LICENSEE the right to continue using the licensed SOFTWARE or documentation li modify or amend the licensed SOFTWARE or documentation so that it becomes non infringing iii replace the licensed SOFTWARE or documentation with a non infringing substitute or iv recover the infringing licensed software and documentation from LICENSEE and repay to LICENSEE all license fees paid to IPETRONIK in connection therewith less a reasonable amount based on LICENSEE s use prior to such recovery and refund This Article 5 sets forth IPETRONIK s sole obligations and liability for intellectual property infringement These indemnity provisions only apply to the SOFTWARE as originally licensed to LICENSEE
84. on of sensors to components of the electrical system electronics brake system engine and transmission control chassis body Tap 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 the 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 inju
85. onflict of laws provisions d 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 1 2 General information 1 2 1 About this manual The manual describes the structure of the IPEmeasue CAN Bus devices M THERMO2 M THERMO 8 16 Mc THERMO u THERMO 8 M RTD2 M SENS2 M SENS 4 8 8plus M CNT2 M FRQ MultiDAQ and CANpressure as well as peripheral devices and accessories 1 2 2 Version Handbuch Motorraum Messtechnik This manual has the version number 01 09 00 released October 2013 All rights reserved IPEmotion Plugin IPETRONIK CAN Contents described in this document relates to the current release version 01 09 IPEMOtION Contents described in this document relates to the release versions 01 06 to 3 01 00 O To run this Plugin an IPEmotion release 2 V02 00 has to be installed on your computer 1 2 3 Legend of used icons E g Tip This icon indicates a useful tip that facilitates the application of the software O Information This icon indicates additional information for a better understanding Attention This icon indicates important information to avoid potential error messages IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 10 92 Important and general information P TRON K 1 2 4 Suppo
86. ons gt Frequently used function The corresponding Plugin IPETRONIK Ps IPEmotion options CAN must be activated Options gt Fm TST be ei al ee TA Start with the latest configuration CI Plugins Basic settings Indude external files in configuration C Appearance View Automatic hardware detection at start CI Select Detect or Automatic Data manager Standard command after successful detection generation for identifying all aes connected hardware components If Ge components are already existing in the Be l irectories current svstem these settings are ae overwritten ERE Save the current system configuration Geer i if required SE IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 39 92 General software description IP TRON K Detect K reads the connected devices and accepts the settings into the current configuration Automatic generation os reads the connected devices accepts the settings into the current configuration creates a storage group and creates a graphic view Devices with default settings no channel active are transferred into the storage group with a data rate of 1 Hz and all channels are activated Step 4 Configuring the acquisition CAN Bus system Select in the left window Systems the corresponding system for listing all channels signals of the system in the right window Channels Select in the left window Systems the corresponding device for listing all chann
87. orrectly See the respective manufacturer s manual for further information 3 2 Supported CAN interfaces Select the CAN system e g IPETRONIK 1 and choose the CAN hardware tab for listing the supported CAN interfaces General CAN hardware Options Medium IPEcan Vector CAN be Kvaser CAN CAN bus Baud rate NI CAM Device baud rate Softing CAN Ai TRAMA CAN Value CAN Baud rate initialization IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 2 7 92 General software description P T RO N K 3 3 Configuration with IPEmotion general You can find a detailed description of IPEmotion in the manual which can be opened in the software as a PDF 3 3 1 Main dialog After the start of IPEmotion the following screen appears If you want to reduce the required time select Options gt Plugins for deactivating those e IPEmotion automaticallv detects all available hardware connections at starting interfaces which are not used Quick Access Bar Project Signals Acquisitom View Data manager Analysis Reporting Info i mi SG KR amp S ag AUTO is Main Navigation Tabs Save as Generate Guidance Project properties MA Series PEmotion Name Value Company name Serial number Manufacturer ID Project name Project manager name E aR Rees eet eye Main window at selected tab Project User E mail address user User login Ali Descripto
88. pe STG CANpressure mixed in one group A signal based calibration is therefore possible IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 88 92 CANpressure 11 5 Technical data General Voltage supply Power consumption typical Operationg temperature range Storage temperature range Relative humidity Enclosure Pressure connection IP protection class Relative absolute pressure General input Electrical isolation Resolution p T Hardware filter cut off frequency fc Type Software filter minimum cut off frequency fcmin maximale Grenzfrequenz fomin Filter characteristics selectable Channel data rates output at the CAN Bus Signal amplifier Accuracy pressure signal Measuring range of temperature signal Accuracy of temperature signal Special funcons Pressure offset adjust CAN output Programmable data rate Data in the CAN message Resolution Format Sign Configuration interface V DC C Bit Hz Hz Hz C Bit s Bit IPETRONIK Engine Compartment Measurement IP TRONIK 6 36 Input threshold U gt 6 V lt 0 7 40 125 with safety shutdown 55 150 5 95 Stainless steel 4435 M10x1 M14x1 5 G male and female thread available IP 52 IP 68 electrically isolated Signal excitation supply CAN bus excitation supply 16 1200 switchable 8 pole Butterworth selectable in 0 1 Hz resp 1 Hz steps
89. rement IPETRONIK GmbH amp Co KG ipetronikcom 87 92 CANpressure P TRON K 11 4 2 Filter averaging General Format Scalinq Display Filter Adjust Hardware filter Software Filter Hardware Filter 1 2 kHz Active iveragin Zi Frequency 6 min Averaging Activate the hardware filter for avoiding aliasing effects This is always recommended for measuring with periodic signals Activate the averaging floating average for smoothing unrequested signal interrupts or noise components i Activate the software filter for additionally filtering the 11 4 3 Adjust signal Select the filter type Bessel Butterworth Tschebychev and the cut off frequency 0 1 Hz 495 0 General Format Scaling Display Elter Adjust Hz depending on the sampling rate Mode Mone None Manually Group 1 Group 2 Group 3 Group 4 Reference value The calibration function with a broadcast command IPEhotkev also allows the offset adjustment during a running acquisition to a user defined target value reference value The following actions are permitted gt None no offset calibration gt Manually only channels with this status are calibrated with the Manual calibration command gt Group X channels which are assigned to a specific group 1 4 are calibrated with the desktop icon IPEhotkey and the Calibration Group command The channel assignation to one group can also be effected for all devices e g SENS ty
90. rint H 3 3 4 Using the options ER S With the Options entry you have the ability to edit user defined settings You can define the following options Administration gt Frequently used Se gt Basic settings ia ef i About gt View Close G gt Data manager gt Analysis Units gt Plugins The following section offers you a detailed overview over the available setting options IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 29 92 General software description P T RO N K Frequently used Activate or deactivate Start with the latest configuration and define the settings for the automatic hardware detection Activate or deactivate the automatic hardware detection at start of IPEmotion and select a possible standard command after successful detection gt Guided configuration gt Automatic configuration or gt Manual configuration ES PEmotion options ME Start with the latest configuration _ Basic settings ee Automatic hardware detection at start Appearance Data manager Standard command after successful detection _ e Guided configuration Analysis Automatic configuration Units Manual configuration MAL PlugIns Basic settings Select a preferred configuration type Hardware configuration gt Signals configuration Activate or deactivate the options Accurate acquisition chain required and Expert mode Fx IPEmotion
91. rmat Scaling Display Thermo Break detection Averaging 5 3 1 Break detection A low current flows through the thermocouple at activated sensor break detection which has no g influence on the measuring result If this flow is interrupted sensor break the result is Fullscale A distinction between Fullscale by sensor break and real Fullscale value is not possible But the value Fullscale is rarely possible The break detection can therefore be used for identifying errors 5 3 2 Averaging In order to reduce the noise level in a signal M THERMO offers the ability to activate the averaging The average value of the signals is calculated online over a period of the last 4 CAN sampling periods With a sampling rate of 10 Hz the floating average is calculated online out of the 4 previous CAN outputs and sent with the defined updating rate here 10 Hz Please also refer to Averaging at 4 3 2 M THERMO IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 55 92 u THERMO P TRON K 5 4 Technical data General Valid for HW version 2 5 20 and FW Version 2 3 20 Voltage supply V DC 12 24 42 power supply switch off at voltage lt 6 V Power consumption typical W Li Operating temperature range Permanent 1 hour C 40 120 120 125 Notice An immediate safety shutdown runs at T gt 125 C which is reset at T lt 120 C Storage temperature range C 55 15
92. rt Headquarter IPETRONIK GmbH amp Co KG Im Rollfeld 28 76532 Baden Baden Germany Phone 49 72 21 99 22 0 Fax 49 72 21 99 22 100 info ipetronik com www ipetronik com Limited commercial partnership with its head office in Baden Baden registry court HRA No 201313 IPETRONIK Verwaltungs GmbH 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 5 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 Program Files x86 IPETRONIK IPEmotion Vxx xx xx Help 1 3 Documentation feedback At IPETRONIK the technical publications team strives to produce documentations of the highest quality and values your feedback as a reader and user If you have any comments or suggestions 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 IPETRONIK Engine Compartment
93. ry 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 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 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 6 92 Important and general information P TRON K 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 Copyright and Duplication All rights reserved to IPETRONIK 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 amp Co KG All 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 cop
94. s up Wait 10 s disconnect plug 7 LED off s soon as the LED relights connect M DEF again s soon as the LED turns off disconnect M DEF again Running initialization LED lights up after approx 5 s i A EE Default initialization completed If all steps were successful the default initialization starts After the successful default initialization approx 5 s the device s is in the standby mode because no channels are active LED is permanenily on Socket LED mm How to proceed M MOD DEF 200 Pa Connect M MOD DEF 200 plug Switch on voltage supply Device LED flashes Plug LED flashes Device LED is permanently on after a while Plug LED flashes The initialization is complete as soon as the plug LED turns off Switch off voltage supply and disconnect M MOD DEF 200 eos SN se IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 49 92 M THERMO2 M THERMO 8 M THERMO 16 P TRON K 4 M THERMO2 M THERMO 8 M THERMO 16 4 1 Temperature acqusition with thermocouples M THERMO offers temperature acquisitions range 60 C to 1370 C 76 F to 2498 F with thermo couples of K type as 8 channel as well as 16 channel version with miniature thermo sockets PT resistors at the aluminum tub of the sockets M THERMO 8 16 respective at each input connector M THERMO2 calculate the thermo electric voltage and provide the cold junction compensation For providing exact results within the en
95. sis el b CAN Send 01 00 01 CAN Send with IPETRONIK CAN server IPETRONMIK Directories LI Lal CAN Acquisition 01 04 02 CAN Acquisition with IPETRONIK CAN IPETROMIK Units L A CAN protocols 01 01 01 CAN protocol acquisition with any CAN IPETRONIK Hotkey J s ETH 01 00 00 23897 UDP or TCP socket connection IPETRONIK User administration E E NA 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 F IPEmotion settings IPETROMIK CAN Components Mptions Type Priority E B IPETROMIE CAM RES bali M SENS High i M SENS DSP tal M SENS Fr hall M SENS amp DSP Not used hed Fl SENS Gplus Normal Sa RA ERIC Del we PNP len sens ml 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 preferred 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 3 3 5 Creating a support file Enter in the appearing Create support file screen an error description Accept the default location for the file
96. t 0 087 gt 14 Bit Characteristic linearization look up table 15 Bit Cold junction compensation each input with Pt100 Reference temperature over RTD Accuracy at 25 C ambient temperature 0 035 of total range Drift at ambient temperature 40 C 125 C ppm K 40 Input resistance approx MQ 2 6 sensor break detection active MQ 4 1 sensor break detection not active Align of the AD converter before acquiring a value Sensor break detection can be activated with the software Status LED at the input 1 Identification of the respective channel 2 Sensor break displaying in acquisition mode Hardware filter Hz 1 0 filter type R C low pass 1 order Channel sample rates 1 min 1 2 5 10 Hz 1 2 5 10 20 50 100 Aggregate sample rate Hz max 800 CAN output 2 0 B electrically isolated Programmable data rate Bit s max 1 MBit s acc to ISO1 1898 2 Data in the CAN message Resolution Format Bit 8 Bvteor 16 Word Sign signed unsigned Configuration interface CAN IPETRONIK Engine Compartment Measurement IPETRONIK GmbH 8 Co KG ipetronikcom 53 92 ET IP TRONIK 5 u THERMO 5 1 Temperature acqusition with thermocouples u THERMO offers temperature acquisitions range 60 C to 1370 C 76 F to 2498 F with thermocouples of K type as 8 channel version with a 16 pin Lemo socket 2 PT resistors in an isothermal block calculate the thermo electric voltage and provide the cold junction compensation For providing exact results
97. tarting the acquisition and changing to the data displaying The connected devices are initialized with the current configuration Finally all values are shown in the Current value column If you have already created screen pages for displaying the data e g y t chart alphanumerical display analog pointer you can select any screen pages without interrupting the running acquisition Step 6 Click Start storing IPETRONIK Engine Compartment Measurement De Beas E Project Signals ore Channels Pause Pages Channels Display 56200422 1 56200422 2 56200422 3 56200422 4 56101035 1 56101035 2 56101035 3 56101035 4 56001415 1 56001415 2 56001415 3 56001415 4 56001415 5 56001415 6 56001415 7 enma asr n Start storing 2223223222322222222 Acquisition View LI F New Overview v Screen pages Data manager eBeHRXKOBaROOA Reporting Scripting Info i 4 d LU EJ Analvsis Fix 56200422 1 56200422 2 56200422 3 56200422 4 56101035 1 56101035 2 56101035 3 56101035 4 56001415 1 56001415 2 56001415 3 56001415 4 56001415 5 56001415 6 56001415 7 56001415 8 Status Storage group 1 IPEmotion y t chart Elements Current value not active not active not active 169 115 cm not active not active not active 24 84 C 24 75 C 24 93 C 24 84 C not active not active not active not active 0 00 00 19 fe E within the main navig
98. tire acquisition range the non linear characteristic of the thermocouple is adjusted by an internal linearization table An optional impressed current through the sensor allows a sensor break detection which is activated within the software Due to the different thermo electric voltages and the non linear characteristic a thermocouple with an input of the K type is not recommended for other thermocouples CH1 CH8 22mV M THERMO K16 l 60 C 1370 C M THERMO K8 4 2 Input cable 600 888 xxx e IE ee THERMO Anschlufibelegung Connection SUB MIN Stecker Z pol grun SUB MIN male 2 pol green Pin Nr Bezeichnung Litze Nr Farbe Pin NO Designation Wire NO Colour ee Ee AE gr n green Ni wei white All input cables are also available in different lengths as well as with further plug configurations IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 50 92 M THERMO2 M THERMO 8 M THERMO 16 P TRON K 4 3 Specific input settings The break detection and the averaging are activated within the configuration dialog Thermo General Format Scaling Display Thermo Break detection Averaging 4 3 1 Break detection gt A low current flows through the thermocouple at activated sensor break detection which has no Q influence on the measuring result If this flow is interrupted sensor break the result is Fullscale A distinction between
99. uire against a constant and calibrated reference e g vacuum or defined pressure A sensor can only acquire either relative pressure or absolute pressure Due to the mechanical sensor structure the reference pressure is preset and therefore the pressure type For measuring against both reference pressures two different sensors are required Medium compatibility of the sensor CANpressure can be used for almost all media incl brake fluids and fuels Restrictions are to be tested in particular cases before using very aggressive media like acids or high pressures and or media temperatures Scaling 11 4Extended input settings p H 1 The sensor mode is set as pressure for channel 1 and as temperature for channel 2 11 4 1 Scaling 2 The sensor range is set for channel 1 with the respective Se pressure range depending on the CANpressure version Bane Forme n AER and for channel 2 with a temperature range of 50 150 Sensor mode P N i Define a physical range and the unit with the scaling Mode Pressure calculator if required and if it does not match the real range Sensor range Min 0 ka Max 1 Unit bar z Physical range Min 0 00000 Max 1 00000 Unit bar General Format Scaling Display Sensor mode Mode Temperature Scaling calculator Sensor range Min 50 Max 150 Unik Gg kd Physical range Min 50 000 Max 150 000 Unit PE IPETRONIK Engine Compartment Measu
100. unting positions MOD M HWI 100 IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 22 92 General system P T RO N K 2 6 3 Mounting brackets for M THERMO2 MOD M TH2 HWI 1 2 6 4 Adapter plates Dovetail adapter V1 V2 M case Version 2 long at Version 1 The existing devices M THERMO 8 M SENS 4 and M FRQ can be connected with devices of the connection mechanics version 2 only long case design by using an adapter plate This plate is slid at the bottom of the long M case M THERMO 16 M SENS 8 M SENS 8plus and allows the mounting of 2 M devices each in the short case version V1 MOD M ADAPT 100 IPErack adapter M case Version 1 at IPErack The existing devices M THERMO 8 M SENS 4 and M FRQ can be connected with the quick assembly system IPErack by using a dovetail adapter plate for fixing to the device back You can therefore fasten the devices without tools to the IPErack device plate MOD M ADAPT 200 IPErack adapter for M2 cases The Dovetail adapter plate enables M2 device mounting THERMO2 RTD2 SENS2 CNT2 without tools to the IPErack device plate IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 23 92 General system P T RO N K 2 6 5 THERMO snap in fastener MOD SNP HWI 900 The u THERMO snap in fastener allows the combination of u THERMO devices without tools in horizontal as well as in vertical order Each devi
101. update gt Select the latest firmware version gt Click Update devices to start the updating process This process can take some minutes 3 4 4 Automatic configuration To automatically update the firmware of devices proceed as follows gt Connect the devices with the power supply Click Auto update devices to start the updating process All connected devices are automatically detected and all firmware versions which do not correspond to the latest one are updated This process can take some minutes IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 46 92 General software description P T RO N K Please note A Due to continuous developments of the hardware and software components incompatibilities can occur Please contact our support department at 49 0 7221 9922 333 or mail to support ipetronik com Make sure that the voltage supply will not be interrupted during the download process Do not run further programs under Windows during the download process If several devices in one system are updated they must be set to one baud rate see Configure HW In case of doubt the setting of the respective devices should be checked because a break of the download process could cause a loss of being able to address all devices After every successful firmware download the device must be restarted Power off Power on for guaranteeing a correct operating This is especial
102. ure acqusition with RTDs Pt100 M RTD2 offers temperature acquisitions range 50 C to 450 C 58 F to 842 F with RTD sensors Pt100 resistor The 4 wire sensor connection ensures good accuracy even for long distance sensor cables AnschluBbelegung Connection Lemo Stecker 0S 4 pol schwarz Lemo male OS 4 pol black Pin Nr Bezeichnung Litze Nr Farbe Pin NO Designation Wire NO Colour Eeer a EE KEE on E ee PORTS S iina Seege eg 2 Down 3 rear a Y DEE eV dN eer vue dg age nd EE EEN E ai is a e E A 4 black Chassis Shield S Shield thick blue tredda All input cables are also available in different lengths as well as with further plug configurations IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronik com 57 92 M RTD2 IP TRONIK 6 3 Specific input settings 6 3 1 Scaling The settings for the sensor range are fixed for Pt100 RIDs Physical range default settings are equal to the sensor range The user can modify the physical range for individual scaling General Scaling Display Thermo Filter Sensor mode Adjustment Mode PT100 Scaling calculator sensor range Miri Max 450 Physical range Min l 50 000 Max 450 000 Unit 6 3 2 Averaging Enter the Thermo tab to activate the moving average function The sensor break detection is alwavs activated General Scaling Display Thermo Filter Averaging Bre
103. urement IPETRONIK GmbH amp Co KG ipetronik com 17 92 General system P T RO N K 2 3 5 Software settings The devices in the standard mode clock free work with internal clocks The user can configure if the devices are synchronously or non synchronously detecting the signals The synchronous data acquisition is activated with the property of the corresponding bus system by using the main navigation point Signals within the CAN bus system IPETRONIK 1 gt Options p Synchronized mode or via the context menu Properties IPEmotion sets one device as the clock generator and the remaining devices are set to the synchronized clock EHETE Y Gir HGA M2 Series IPEmotion File Project Signals CH B l ama RO System Components Import Eer Check Sekt Zeie Se Display Ai T Acquisition View Data manager Analysis Reporting Info Configuration Access View VO1 08 01 am active Uni s Min PhysMax Sensor Min Sensor Max Sampling rate A Name L 57800352 1 i 60 00 aS 60 00 1370 00 l G 1370 10 Hz At l 60 00 1370 00 1370 10 Hz 57800352 5 a 40 00 1370 00 1370 10 Hz 57800352 6 j 0 00 1370 00 6 1370 10 Hz i General CAN hardware Options Synchronized mode Fal Automatic CAN ID placing Start CAN ID Names out of serial numbers 57800352 M THE2 57800352 3 58100419 M RTD2 UU 57800357 4 58700658 M SEN2 o 58600373 M CNT2 a iofi PC Systemsteuerung Energy optio
104. ve 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 SOFTWARE is being provided to it only for use in EQUIPMENT in the ordinary course of business and that LICENSEE agrees and acknowledges that IPETRONIK is the owner of all title and proprietary rights in the SOFTWARE including without limitation any and all patents copyrights trademarks or any other intellectual property rights associated with it under the laws of the United States or any jurisdiction throughout the world No right title or interest in the SOFTWARE or any IPETRONIK patent copyright trademark or any other intellectual property right is transferred to LICENSEE or any other party through this Software License Agreement 4 Disclaimer of Warranties Liability Limitations a THE SOFTWARE IS PROVIDED TO YOU AS IS THERE ARE NO WARRANTIES OF ANY KIND WHETHER EXPRESS OR IMPLIED INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND COMPATIBILITY AND TITLE b LICENSEE ASSUMES ALL RISK AS TO THE SELECTION USE PERFORMANCE AND QUALITY OF THE SOFTWARE IN NO EVENT WILL IPETRONIK OR
105. wer current load than the SIM CAN cables Only the M devices allow an operation at a DC supply voltage of 6 V to 42 55 V This range is for almost all SIM devices 9 to 36 V General CAN hardware Options Step 2 Settings for the hardware interface me Medium IPEcan kl With the Signals main navigation tab under the CAN bus svstem CAN bus CAN E IPETRONIK 1 gt CAN hardware you can configure the ie communication with the measuring devices Configuring the Ree i settings is normally not required because IPEmotion Device baud rate 500 kBd 7 automaticallv detects the interface and the devices Tee eee ee Device baud rate When using e g devices with 1 MBd MBit s which are currently set to 500 kBd kBit s only change the baud rate of the devices to 1 MBd The configuration data are then sent with 500 kBd and the devices are finally set to 1 MBd For automatically adapting the CAN interface baud rate to the device baud rate the Baud rate initialization must be activated Q The baud rate of the CAN interface Baud rate can differ from the baud rate of the devices a If there are devices in the svstem which are set to different baud rates thev cannot be N addressed For resetting all devices in a system to one default baud rate of 500 kBd use the M DEF 100 or M MOD DEF 200 plugs Step 3 Detecting devices Reading out settings IPEmotion automatically detects all available interfaces if they are activated with the Opti
106. xxx 7 2 1 Input cable 670 807 xxx M SENS 4 SIM SENS SMSENS EE Anschlufibelegung Connection Lemo Stecker 1B 6 pol schwarz Lemo male 1B 6 pol black Pin Nr Bezeichnung Litze Nr Farbe Pin NO Designation Wire NO Colour Only M SENS 8 and M SENS 8plus provide a negative sensor supply via pin 6 M SENS reserves this pin for TEDS 7 2 2 Input cable 670 810 xxx M SENS 8 8plus f o E gt Lemo Stecker 1B 7 pol schwarz Lemo male 1B 7 pol black 6 0 810 XX PI me VIN LIN braun gt qal LIN a rot 3 II VOUT schwarz 4 gja aa LL on MT geb A o e violett j IL blau S IPETRONIK Engine Compartment Measurement IPETRONIK GmbH amp Co KG ipetronikcom 61 92 M SENS M SENS2 M SENS 8 8plus P TRON K All input cables are also available in different lengths as well as with further plug configurations 7 3 Input Principle details 7 3 1 Filter in the measurement engineering Why do we use filters Filters of analog measuring amplifiers are used for avoiding interrupting frequencies frequency spectra which do not contribute to the signal and or which cannot be processed by the system A low pass filter which reduces the amplitudes of the frequencies above a specific cut off frequency is usually used for avoiding negative effects to the useful signal The threshold in the range of the cut off frequency the barrier between the useful a
107. yright laws Its total or partial reproduction is strictly forbidden General license agreement IMPORTANT READ CAREFULLY THIS IS A LEGAL AGREEMENT BETWEEN YOU LICENSEE AND IPETRONIK GMBH amp CO KG IPETRONIK ING IPETRONIK BY CHECKING I ACCEPT ALL OF THE TERMS CONTAINED IN THE ABOVE AGREEMENT DURING INSTALLATION COPYING OR USING THIS PRODUCT IN ANY WAY YOU ACKNOWLEDGE THAT YOU HAVE READ THIS LICENSE AND THAT YOU UNDERSTAND AND EXPRESSLY AGREE TO BE BOUND BY THE TERMS AND CONDITIONS SET FORTH BELOW A valid software license is required to use the software 1 Definitions a SOFTWARE is defined as computer program in object code or machine readable format together with any and all modifications enhancements updates and improvements provided by IPETRONIK as well as any subsequent versions corrections bug fixes enhancements updates or other modifications regardless of the source The term Licensed Software shall not include the source code version of the Licensed Software 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 As long as LICENSEE complies with all terms in this Software Licens
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