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1. Modi Measuring Measuring S Name unit Description Location Active Type Soini zT range range 4 aot type type type min max min Rsi Out Integration function Yes Integrator Float64 Variable2 Nake ona Ot Yes Variable Float64 constant values CAN bus controller CAN connector is Yes CANInterface StatusOnly COM1 CAN Channel group containing storage Memory MB groups shows free Yes MemoryGroup Integer32 space in megabytes TestSigni Yo No Setpoint Float64 Spectrum of an FftSpectrum AMDT Analog Input Yes TopDSPFFT AMDT Block Counter 20 Hz Yes TopCounterInput AMDT Float32 0 00 1 00 0 00 Hz Calculates various x1 arithmetic Yes Calculation Float64 operations Analog Input 05 mv Yes TopAnaloginputAMDT AMDT Block Voltage 10000 00 mV 10000 00 mV 8000 00 mV 5 2 3 2 Saving and loading configurations Info The saving or loading of device configurations can only be done through the web interface Save configuration Saves the current configuration to a compressed file The file name is automatically gene rated from the host name domain refer to network settings and the date and time as at file creation LogMessage 48 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology Load configuration Loads a file that has been created with Save configuration and sets the device to the file s settings except for network date and time settings Enter the
2. Jd i 8 Z jauueyD una p e jnduj g jouueUuD Bojeuy T es 0 yndu n 4 euueu Bojeuy O 9 G jauueYyd una p e jnduj i 9 jauueUuD Bojeuy 4 jnduj G j uueyo Bojeuy jeu Oo gt uinyos 3 yndu Bojeuy wines 3 pe y jeuueuo induj Bojeuy m 0 jauueYyD indui Bojeuy je gt gt z Jeuueu unau 4 pg Z jauueyo jnduj Bojeuy jd lt jauueyo indui Bojeuy jd gt gt 1 2s 4 56 7 8 9 cji i2 t3 14 to o r7 te ro 20 2 22 23 24 25 0 a7 a8 9 30 6 32 33 ADIT Notes ADIT e ceo jndino e e euueut l Bojeuy 5 jndino ale S euue oh 42 i a a a Q Jeu oo OL pjeuueu wna e e yndu N 0L jauueyD xL b N 6 ojeuy jnduj 5 A uue gt el 49 dr N jnduj S 9 jeuueyD xL JN 5 N ojeuy N d A imm TE E 6 e ojeuy Q jnduj D uue ee ee 91 49 a co bh jeuueyo wa uongounf jay Sev i E lt yndu s 2n euue LG SI 49 Pal A a jnd m euue ul mc vl 49 dC m N si OL p jauueYD O gt E jauueyo wna e eo yndu D jeuueu Bojeuy c Os Nh jndu E o c jauueYyD Bojeuy 0 P D jndu ii e jauueyD Bojeuy a mOD e
3. Info The I O modules ADFT and AMDT have power sources as analog out puts The minimum permissible load resistance of the actuator is 2 5kQ v Actuator at a digital output resistive load To connect an actuator at a digital output requires an external supply voltage of bet ween 5 and 50V c 24 V in the examples Netzteil Aktor Digital Output 24V oc 155 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Info The maximum switching voltage is 50V and a maximum switching cur rent of 2 5A v Actuator at a digital output inductive load To connect an actuator at a digital output requires an external supply voltage of bet ween 5 and 50V 24 V in the examples Netzteil Aktor Digital Output Info The maximum switching voltage is 50 V and a maximum switching cur rent of 2 5 A To protect the output s electronic switches we recommend switching to recovery diodes in parallel with inductive loads LogMessage 156 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin achpaloay 7 Measurement technology The section contains general information and recommendations on using measurement technology 157 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology 7 1 Galvanic isolation A device s I O modules interfaces Ethernet Ext BUS CAN COM1 COM2 COM3 and COM4 are all galvanically isolated
4. 24 LogMessage July 2012 2010 2012 Delphin Technology AG in h chraloay Delp LogMessage ADVT Notes ADVT e e indui e 9 jauueyo 2 Bojeuy m indui amp G jeuueu Bojeuy ES yndu N t jauueyo Bojeuy N e jeuueyo e CN s Z jeuueu S N N LL jauueyo x N eo OL jeuueu S 6 jouueYyD e uonounf 44yY N e 8 jauueyD NS d vt 4 jauueyD mae 5 N 9 jouueyo men eo G auueuS Pe ES co pisuueyg M gt Ko jauueuD wae Z jeuueyo a Z N L BuueyO ael AMDT and ADFT v Notes AMDT eo ceo N eo 0 indino 8 O jeuueuo lel Bo o jeuy ndino S auue e uo EM arj pm jnduj N 9 jeuueyo ia BOEN io L t Lieuueyo S Pda xL S H ojeuy N E e gjeuueyo 8 du EN H Bojuy e E O gt yndu N igi dcl o im co z jndu euue e vl 49 ET Red 4 N T gt ae aL 2 jnduj uue iss E Ael o0 ald t yndu q euu zem Bo 5 mm N 2 ynduj 7 p IBuueyo F Bojeuy E x EM qe 9 jouueyo gt 2 L Jeuueu gt Oo giiuueuo dno fm jeyeia Las S Jeuueu a E N 8L SJ Jeuueu E Ko 02 Fb LL puueyo i Ajuo yndu Ph I9UU
5. 89 LogMessage 2010 2012 Delphin Technology AG July 2012 Main settings Advanced settings Sensor correction Scaling Measuring value Min 0 Max 7200 Scale value 0 3600 a Delphin Technology Connection 1 A eee Us be bent 1 5 This example means 0 pulses correspond to 0 degrees 7200 pulses correspond to 3600 degrees 10 rotations Main settings Advanced settings Sensor correction Scaling Measuring value Min 0 Max 5000 Scale value 0 50 Hz Hz Connection 1 H R ede ax q This example means 0 pulses correspond to 0 kHz 5000 pulses correspond with a gate ti me of 100 ms to 50 kHz Scaling Enter two points from the sensor s characteristic curve if possible the lower and upper vertexes For a linear characteristic measured values are then converted into the unit of measurement scaling from the sensor For non linear characteristics use Sensor correcti on The specified range 0 to 3600 degrees in the upper example i e 10 rotations in the lower example O to 50 kHz is the default for displaying graphics in ProfiSignal The channel receives the status scale range overrun or scale range underrun when not within the range Channel status values are available in the status monitoring table LogMessage July 2012 90 2010 2012 Delphin Technology AG LogMessage Delphin chnology 5 6 7 Digital i
6. Enter the load resistance being used Delphin offers various load resistances for measuring currents Contact us to obtain a suitable resistance Current measurement is not possible without a load resistance LogMessage 84 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology Scaling Enter two points from the sensor s characteristic curve if possible the lower and upper vertexes For a linear characteristic measured values are then converted into the unit of measurement scaling from the sensor For non linear characteristics use Sensor correcti on The specified range in the example O I h to 1000 I h is used as the default for the dis play area for graphics in ProfiSignal The channel receives the status scale range overrun or scale range underrun when not within the range Channel status values are available in the status monitoring table 5 6 5 5 Resistance thermometer sensor type Main settings Advanced settings Additional settings Measuring time Sensor correction Sensor type PT xxx Careto Pt xxx RTD M Measuring range Temp Format 260 0 850 0 C t 11 Scaling Range of validity 24 Min 260 00 E Max 850 00 H 25 28 0 2 Wie 3 Wire 4 Wire The example shows the settings for a Pt100 sensor The sensors or settings for Nixxx sen sors or PT1000 etc are however similar Pt xxx or Ni xxx or YSI400 Select the the type of resistance
7. LogMessage Delphin chnology Most positive value Minimum value Most negative value Ty pe Amplitude of 3X component F Amplitude of triple speed synchronous vibration component Phase of 3X component T F Phase of triple speed synchronous vibration component Characteristic value Maximum value Amplitude of xX component Amplitude of multiple x speed synchronous vi bration component Phase of xX component Phase of multiple x speed synchronous vibrati on component Remainder value Weighted sum of all lines of frequency spec trum Weighted sum of all lines of frequency spec trum minus the lines of the harmonic com ponents 23 24 25 26 27 28 29 0 3 Type T determined from time signal F determined from frequency spectrum 2 determined from 2 source channels Scaling Scaling is automatically taken from source channel in case of amplitude or appropriate preset in case of frequency or phase angle Application Analysis of characteristic values for a vibration signal for time domain and for frequency domain For example determining the root mean square of a vibration signal or the peak amplitude of a spectrum Mathematical definition Mathematical definitions for all the available characteristic values are listed in the following sections 9 4 5 1 Characteristic Maximum value minimum value Maximum value The DSP determines finds the maximum value or most positive value of the time
8. Earth loop between measuring device computer Most of the device s interfaces are galvanically isolated to each other and to the central device The earth loop in the communication circuit as shown in the example does not oc cur with the device Use these interfaces to connect the device to PCs PLCs or to the equipment from other manufacturers Refer also galvanic isolation 161 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology 7 4 Shielding Measurement signals can be disrupted by the occurrence of magnetic and electric fields across the measuring circuits e g generated by neighbouring current carrying circuits Shielded cables should therefore always be used for sensor circuitry and kept at least 50 cm away from other current carrying circuits The smaller the sensor signal and or the higher the sensor impedance the more important is good shielding for low noise accurate readings To prevent earth loops earth the shield on one side of the circuit only see example a Sensors without earth Earthing of the shield is in this case one sided and directly at the device PE connection on the power supply Refer also to earthing Sensor Analog Input b Sensors with earthing When the use of earth free sensors is not possible earth the shield only or attach it to the sensor s earth potential see example Refer also to potential differences Sensor Analog Inpu
9. Establishing a device connection and setting an alternative network address If a different IP address is required e g to operate the device within a LAN this can be performed using any internet browser Go to the next section if a change of IP address is not required 1 Open the internet browser and enter the address http 192 168 7 21 A connection is established to the device and the start page is displayed 2 In the Settings section click Network This displays the network settings page 3 Enter the address required for your network at P Address The subnet mask and ga teway or DNS and NTP server can also be entered refer to web browser configurati on 4 Click Save when finished to store the settings The LogMessage device can now be connected to your network If the PC again requires reconnecting to the device you may need to set it to the new IP Segment the first group of three digits 11 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology Establishing a connection to the device 1 Start the DataService Configurator to establish a connection and to carry out confi guration The DataService is starts and the Connections tab is displayed on the left of the Da taService Configurator 2 Select Connect Add driver connection LogMessage device Alternatively a LogMessa ge device driver can be added by right clicking DataService 3 A device search is pe
10. Measurement range 1 25 V to 10 V Measuring ran ge 0 625 V Measuring ran ge 0 312 V Measuring ran ge 0 156 V 0 1 from unipolar measurement range 0 2 from unipolar measurement range 0 2 from unipolar measurement range 0 4 from unipolar measurement range Anti aliasing filter Optional digital low pass filter 8 4 Order for sampling 100 10000 measurements s The cut off frequency is automatically adjusted to the sampling rate Dielectric withstand voltage of the 250 Voc channel Permissible differential voltages 100 V DC from channel to channel 175 2010 2012 Delphin Technology AG LogMessage July 2012 LogMessage Delphin echnology v Analog outputs Output signal 0 10V 0 4 mA Earth reference Terminals are connected with 1 kOhm to the internal analog ground v Digital inputs for level detection se counting Minimum pulse width that can be 2 5 ms evaluated Potential isolation 2 5 kV v Digital inputs for frequency measurement pulse counting High level 3 5 90 V 2 mA typ 2 7 mA at 5 V 250 ms 5000 ms adjustable in increments of 250 Frequency measurement 0 2 Hz 50 kHz Measurement error 0 2 Hz 100 Hz 1 of the input frequency 2100 Hz 1 Hz Potential isolation 2 5 kV LogMessage 176 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology v Digital outputs Potential isolation 2
11. Output range 10 V 0 10V Updating Coupled to analog inputs trig Independent ger Digital outputs Updating Coupled to analog inputs trig Independent ger 257 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin echnology Power supply 12 or 24V Digital filter Availability Low pass high pass band pass Low pass for analog input 1 8 for analog input 1 8 high pass band pass for analog input 1 4 Filter order Adjustable 2 4 6 8 Automatically optimized 4 or 8 Filter procedure Always continuous Digital integrator Availability basic integrator for analog input Basic integrator for analog input 1 1 4 1 8 4 Integrator procedure Non continuous or continuous Always continuous Measuring phase Availability Yes for low rotations via time zoom procedure Envelope spectrum for roller bearing diagnostics Availability Yes via sequential mode Yes for analog input 1 4 4 LogMessage 258 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin 10 10 1 chology Appendix EC declaration on conformity LogMessage EC declaration on conformity According to the directive 2004 108 EC electromagnetic compatibility According to the directive 2006 95 EC low voltage legislation We declare that the below product Product name Message Series Type or model LogMessage corresponds to the technical requirements and to any amendments to these that are
12. With 1 8 used analog inputs All filters available Max order is 6 9 4 3 2 Digital integrator Properties e Numerical integration of the acquired vibration signal e Fixed scaling factor preset at 1000 Application For measurements using acceleration sensors a signal m s unit is converted into a vele city signal mm s unit Refer to the Applications with AMDT manual LogMessage 208 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology Restrictions The integrator is defeated if necessary by this limitations Board V2 0 to V2 1 2 With 1 4 used analog inputs Integrator available With 5 8 used analog inputs Integrator not available From board V2 1 3 With 1 8 used analog inputs Integrator available Info e3 When digital integration is enabled measurement range checking or wire break monitoring will not take place 9 4 4 FFT analysis frequency spectrum Any acquired vibration signal is initially saved to a buffer within the I O module Options are available to then perform an FFT analysis or to compute a frequency spectrum Each ana log input channel is provided with an additional FFT spectrum channel That delivers a block measured data e g 800 amplitude values concerning frequency Properties e An FFT spectrum channel can be separately set up created for each analog input e FFT algorithms for 1024 2048 or 4096 points or with 400 800 or 1600 lines e Frequency
13. sss nnn 194 Continuous recording eessssseeeeeeeen nnne 195 Signal simulation ssssssssssssseeeeen eene 196 Synchronizing two AMDT modules eese 199 Triggering and recording ssssssseesessssse nem 204 Redundant trigger source ssseseeseeeeeee nnn nnn 206 Time signal i cet pex Y ERE ENEREN NR MERRERERERNRERENENENN RR REAA 208 DigitalfilEeEicus esiste eei ura ex rrr sd uro s EDU IR Sra E in 208 Digital integrator eec rk eee exi ER Ra3 P xiaa a Ex ERERRRR 208 FFT analysis frequency spectrum eessssseee enne 209 Characteristics eorr x ed RO OR UL OR RR ERR TR TRE TR CR 209 Characteristic Maximum value minimum value 211 Characteristic Peak to peak Value cee cecee cece eee ee eeeeeeee ees 212 Characteristic Mean ValUC cee ccce cece cece eee ee eee en 213 Characteristic True RMS value cccceeee eee eeee eee eee eeeeeeeeees 214 Characteristic Frequency of main amplitude ssssuu 214 Characteristic Main amplitude ssassssssrsunsrrrnnrrrnnrrrnnrrnnnns 215 Characteristic Phase of main amplitude uuuueessse 215 Characteristic Amplitude of 1X 2X 3X xX component esee enn 216 Characteristic Phase of the 1X 2X 3X xX COMPONENT iicccctianieiisedecevueusccceeesaiaieddecsavaliecsdantnniesecawyali 217 Characteristic Rotation speed sssssssssssnsrrrnnrrrnnrrrnnrrnnnn 218 Ch
14. 01 S00 m Analog Input 01 Analog Input 02 Analog Input 02 Analog Input 03 Analog Input 03 Analog Input 04 Analog Input 04 Analog Input 05 Analog Input 05 Analog Input 06 Analog Input 06 Analog Input 07 Analog Input 07 Analog Input 08 Analog Input 08 Analog Input 09 X Tolerance for newly added channels Online Relative tolerance E Defaultvalue 0 00 Previous Next X Abort Help Last change 06 04 2012 12 44 56 463 Select the channels from which data is to be stored Mark channel and click How often measurement data is saved depends on a the different settings refer also to the Storage mode tab and may also be influenced by the Tolerance for newy added chan nels e Online The tolerances given in the Advanced settings tab under Data reduction will also be used for saving The measurement data is saved when it deviates from the previously saved data by more than the value given here The valid value for the channel is displayed after acquisition in the field Stored channels e Defaultvalue The value specified here is used for the channel that is to be assi gned to the group The tolerance is valid only for saving to this memory group For everything else such as a calculation using this channel the valid tolerance is the one assigned to this channel The valid value for the channel is displayed after acquisition in the
15. Bandwidth Sets the monitoring window for Band violation and Steady condition monitoring In Band violation the monitoring window is symmetrical to the threshold The value entered acts in positive and negative directions as an addition to the threshold Example Threshold 50 bandwidth 3 means the 47 to 53 range is monitored Hold up The alarm condition must remain true during the specified time to trigger an alarm The option is an alternative to Hysteresis and is especially suitable to suppress alarms for brief signal distortions with high amplitudes Both options can be combined Latching The alarm is latched continues to alarm even when the alarm condition is no lon ger true Enabling Latching changes Reset trigger for latching The alarm resets when a reset event occurs e g a Rising edge in the given channel The Reset priority option causes an alarm to reset when the alarm condition is still true Refer also to Trigger options LogMessage 110 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay 5 8 7 Impulse generator The software channel can be used in two different modes e Free running Free running pulses are generated at a fixed repetition rate Cycle time and at a set Pulse wath 09 21 40 09 21 45 09 21 50 09 21 55 27 10 2011 e Synchronic to real time Pulses are generated at a repetition rate according to time For example a Cycle time set at 15 minutes generat
16. gt gt yndu is jauueyyd Dojeuy mi gt gt 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 o oO Een o 2 o m 9 c o gen o 0 E oO gt o E o ES 2 oO e E QO oO C 42 u o eo CN UO c o e T o c 9 p oO gt that enable cyclical selection of individual channels A light ticking is therefore audible during operation ADGT veo e e Jeu N 8 Z jauueyD wna L 4 D jnduj B e 9 jouueuD Bojeuy e o p N yndu 7 S 4 jeuueuD Bojeuv N gt 9 N Jeu tO 9 G j uueyo wna p e 9 indui N 9 jauueyo MV g N Q N yndu N G jauueuD Bojeuy I Q mo 2 2 ungaa 3 x 9o 6 euueuo indui rz uonounf JY 60ojeuy p euueug wna e SN e pL p jeuueyD Bojeuy N Pu o o jnduj x T jeuueu Bojeuy oO me Q o c euueu ume pg jnduj 7 zZ jauueyDd Bojeuy wo Do yndu e jauueyyd BSojeuy l QN p D LogMessage 23 July 2012 2010 2012 Delphin Technology AG Li hin Technology Del ADGT so S LogMessage 6 euueu uonounf joy Y leuueuo
17. int float Operand1 Operand2 ND r Logical opera tions A NOT bool int float Operandi A bool int bool int Operandi amp Operand2 bool int bool int Operandi Operand2 XOR bool int bool int Operandi Operand2 Binary opera tions Left shift bool int bool int Operandi lt lt Operand2 Move ope randi to the left by the number of places in ope rand2 Right shift bool int bool int Operandi gt gt Operand2 Move ope randi to the right by the number of places in ope rand2 Operations Minimum bool int float bool int float MIN operan with sets di operand2 Maximum bool int float bool int float MAX operan di operand2 129 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin echnology lation Operand1 Operand2 Matching ope Less than bool int float bool int float Operandi lt rations string string Operand2 Less than or bool int float bool int float Operandi lt equal string string Operand2 Greater than bool int float bool int float Operandi gt string string Operand2 Greater than bool int float bool int float Operandi gt or equal string string Operand2 Equals bool int float bool int float Operandi string string Operand2 Not equal to bool int float bool int float Operandi string string Operand2 Trig functions Tangent bool int float TAN Operan di Cosine bool int float COS Operan di Sine b
18. of amplitude Example Modulation 6 Two anomalies of 20 of amplitude at position 3 16 and 11 16 of signal duration Example T t T T 27 000 sec 27 200 sec 27 400 sec 27 600 sec 9 4 1 4 Synchronizing two AMDT modules Synchronization enables 8 8 16 analog signals to be simultaneously triggered and sam pled Synchronization is available only in the non continous recoding operating mode Application example as here described Synchronization of vibration measurement from 8 4 12 analog signals 8 analog inputs are assigned to a master and 4 analog inputs to a slave Periodic external trigger pulses form a rotating shaft Connected to digital input 1 on master and slave Additional wiring Synchronization requires additional wiring Digital input 4 and digital output 4 is connected diagonally Feed voltage and reference mass are also to be connected 199 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology Wiring for the application example External trigger pulse M dE I O module AMDT I O module AMDT Master OV 24V 24V OV Slave DIN1 DIN2 DIN3 DIN4 DIN1 DIN2 DIN3 DIN4 DOUT1 4 DOUT1 DOUT1 4 DOUT1 DOUT2 DOUT2 DOUT3 DOUT3 DOUT4 10 10 DOUT4 1 2 3 4 DIN1 4 5 DIN1 4 6 7 8 9 The connections in blue are always essential LogMessage 200 July 2012 2010 2012 Delphin Technology AG LogMessage De
19. 2012 LogMessage Delphin chnoloay 9 3 4 6 Digital outputs Properties 4 digital outputs Galvanic isolation up to 2 5 kV Switching voltage max 50 Vpc Switching current max 2 5 Apc Integrated protection diode Recovery diode external Refresh rate Determined by source channel e g timer channel Typical range O 10 Hz dependent on DSP load Application The digital outputs report warnings or alarms e g generated by limits on vibration charac teristics Signals are also delivered for process control LogMessage 190 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay 9 3 5 Attachment e Setting AC coupling for analog inputs e External switching 9 3 5 1 AC coupling for analog inputs An analog input s DC coupling can be switched to AC coupling via two DIP switches on the signal conditioning board 2258 AMDM U2 1 zggz 4 PL 1 3127 ci42 c149 C123 C105 Ebbene C141 C138 C114 C96 OFF eo AI mmm mmm SEES ICSO ON ON a 3 5583 OOo0o0 NUM NENNEN AING AINZ RING _AINS AIN4 AIN3 __AIN2 AINL c m co N dosm n n ennnen rc oe a Mg gog o uu E B uuu g e E E gs 147 C ic45 P1c43 O IC4L 1238 137 IC35 1633 e Ico m E mnn E ue a m ES ES CSS C53 C51 C48 C42 C36 Hn i Hn s Hn S 0 iS m hs re K EEN E 4 Gaui D he B i a Ics8 p Ics Ic56 1655 m 1c53 _ 1052 IC51 a mn UO T mmn NS tl Em E E E
20. 4999 8477 L9 a ERRARE RR RENE OS IDEE LI et me ee eee ae ae ees ace parent Saas Dae eae i ai eae ea ea nL sen 1000 MMMMMMMMMMM 4 4 100 150 200 al HE du 4 XX ex NOS Aa E No oO JB A foo KU SS Wo con AYE a Singles hand 4B 253 2010 2012 Delphin Technology AG LogMessage July 2012 chology LogMessage Delphin Technology 9 5 3 Firmware update Firmware for the I O module AMDT is included in the device firmware Firmware updates ta ke place via the device s Ethernet interface and any internet browser Refer to the sections on firmware update in the device manual The device s power supply must not be interrupted during firmware upda ting otherwise damage may occur to the equipment that will require repai ring Method e Open your internet browser e Enter the IP address of your device example A Wel AA EAE EA OE Cow lt D hittp 192 168 251 252 e Click Update firmware e Enter the file with the new firmware in the New firmware file field on click Search to find the file on your PC e The click Start firmware update The firmware upgrade takes 4 to 6 minutes ProfiMessage ProfiMessage example com Delphin Technology Update firmware and reboot R221 Build 6526 ayy Do not switch off power or reboot when updating firmware The device may become unusable and has to be repaired at factory Current Firmware R221 Build 6526 Pro
21. 5 kV 8 2 4 I O module AMDT The AMDT I O module on vibration measurement is dealt with in a separate chapter Refer to E A Modul AMDT Technical data is available in the I O module AMDT Technical specifications section 177 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology 9 I O module AMDT This section of the documentation describes using and configuring the I O module AMDT The I O module AMDT has been designed for vibration measurement technology The effi ciency is reached by a DSP Digital Signal Processor The processor s firmware i e soft ware within the I O module provides many signal processing functions The documentation is provided under the following headings e Hardware e Functions e Configuration and operation Each section can be read independently Just select the section you require The content is based on this consistent state of the art e ProfiSignal CD V3 1 4 e Device firmware V232 e AMDT board V2 0 e AMDT firmware 3 58 Copyright 2003 2011 Delphin Technology AG All rights reserved This document s content especially text images and graphics are protected by copyright When not otherwise stated the copyright belongs to Delphin Technology AG Lustheide 81 in 51427 Bergisch Gladbach Germany All the trademarks and brands used in this manual refer only to the respective product or trademark holder Delphin Technology claims no rights oth
22. 66 Settings for USB export 63 106 164 2010 2012 Delphin Technology AG LogMessage Delphin chology Shielding 162 Software 9 Software channels 101 Statistics 134 Status monitoring 135 Stopwatch 136 Subnet mask 44 58 Symbols in this document 6 Symbols used in this documentation 6 System monitoring 141 System report 50 System requirements 5 Tables 70 Technical specifications 166 Main device 167 Temperature formats 85 87 Terminal 43 Terminal block configuration 23 Thermocouple sensor type 87 Timer 141 Trigger software channel 144 Trigger variants 102 Unknown IP address 43 Update Firmware 51 Updating firmware 53 USB 17 USB Memory Stick 64 View channels 48 Voltage sensor type 80 Web configuration 43 Wire break monitoring 79 263 LogMessage 2010 2012 Delphin Technology AG July 2012
23. Counter 1 EIE Counter 2 94 Digital Input 1 E 2 Digtal Input 2 4944 Digital Input 3 2 Digital Input 4 aca Digital Output 1 x Digital Output 2 x Digital Output 3 i A Digital Output 4 13 8 13 8 0 00 Hz 0 00 Hz Off Off Off Delphin chraloay Overall functioning is organized according to channels As a rule each channel delivers one measurement value Channels can be added or deleted Configuring setting the entire I O module Open the configuration dialog via the context menu right click or double clicking an I O module i3 ProfiMessage ProfiMessage SN41030570 PoND 232 amp System Monitor CER i 3 isl Configuration gt Ani 2 3 n Store channel in gt Sn gt m Create dependent channel E Aniw The dialog is described in configuring setting the I O module Configuring setting single channels Properties Delete channel along with subchannels links Online Ti Open the configuration dialog via the context menu right click or double clicking a chan nel i gt 7 ib The dialog is described in configuring setting an analog input agg 1 0 Module 1 AMDT Madule AMDT i 3 Properties Configuration Store channel in FFT Spectra Caluculate 2010 2012 Delphin Technology AG 233 LogMessage July 2012 LogMessage Delphin Technology Adding deleting an FFT spectrum or characteristic value cha
24. Driver 4 Link Layer Topology Discovery Responder Description Transmission Control Protocol Intemet Protocol The default wide area network protocol that provides communication across diverse interconnected networks LogMessage 10 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay 5 In the next dialog you can set either a fixed address for your PC or if the PC is set to DHCP and used in the LAN use the option of an alternative configuration to pre pare for cases where no network server is available recommended internet Protocol Version 4 TCP IPv4 Properties 2h Ex femen Alternate Configuration If this computer is used on more than one network enter the alternate IP settings below Automatic private IP address User configured IP address 192 168 7 10 Subnet mask 255 255 255 0 Default gateway Preferred DNS server Alternate DNS server Preferred WINS server Alternate WINS server V Validate settings if changed upon exit aD Cem 6 Enter an address that falls within the same segment as the address of the device refer to above example Windows automatically adds the subnet mask 7 Close all dialogs by clicking OK Establishing a cable connection e Connect the PC and the device using the supplied Ethernet cable The connection between the device and PC can also be made via a network hub or switch
25. ERR X Rena n 51 Firmware Changelog eeeeesesseen emen 53 Restart main application ssssssseeese n 53 Device restart reboot eessssseeeeeseese nnne nmn 54 LogMessage I July 2012 2010 2012 Delphin Technology AG LogMessage Delphin ch ology Configuring a LogMessage device coser nnne 55 Device configuration channel configuration ccce cece ee eee eaeees 56 Network settings NI P uie sites a cee nex pp ETARE EE ER KKCO T E FREUE RO 58 Storage Group ernenueuu ee ARARARARARARARRARARRRASRRSRASARRAAA 60 Data transfer to USB memory stick eere esee n nnns 64 Configuring I O module channels eeeee essen nnne 66 Settings for all dialogs sssssssseeessssee m nmn 66 Tables f ee er eR vag ox QU e ROUTE EROGO SOL SOROR SCR QUI 70 Global linearisation tables csse ne 71 Global Setpoint tables cei to x HER Y cere 73 VO modul ETT TIU I A 76 VO module AMD 15 s rst nsi we x Rat ra ada c ar FRE 78 Analog MPOC pe see 79 Voltage sensor type cssssessssssseeeeen enema nnns 80 Resistor sensor CY PCiiiivcevicccd euer x hx n tine n RXKU NAE ER E RR ERN E RE 81 Current sensor type cese e erexen exten RR ER ERR NK ERR RYE eine eK es 83 Current sensor type 0 4 20 mA csesesesssseee ne 84 Resistance thermometer sensor tYpe ssssssssrrrrerrrrrr
26. Sae Tc LogMessage 192 168 251 239 P 0x29050560 5646791B Online D amp System Monitor 29050560 362223F8 cl ga 0 Module 2 ADIT Modul Ox29050560 07B73D80 Ok M l Interfaces 029050560 4FB14245 In E Memory 14611 MB 0x23050560 1EB11395 Ok M ERU y ee FN a Create channel b Channelgroup Create several channels Variable ey PO Reser Ji Calculation Alternatively software channels can be created via the context menu of a hardware chan nel as Create dependent channel In contrast to creation via Software channel the source chan nel is already selected within the dialog and the channel is initially located directly under the hardware channel Following creation the User defined view enables channels to be moved and grouped differently Another option enables the linking of a channel The original channel remains at the original position but creates at another location an entry that is linked to this channel Linking channels From the Options in tab in the DataService Configurator select Activate channel move link In the User defined view View Right left panel gt Channel sheet options move or link a channel by left clicking and holding Further information is available in the DataService Configurator manual The rest of the configuration is similar to module channels Specific settings for each func tion are explained in the sections here General information on dialogs is availa
27. The channel receives the status measurement range overrun underrun for measurements not within the range Channel status values are available in the status monitoring table Current measurement is not possible without a load resistance Scaling Enter the lower and upper vertexes of the sensor s characteristic curve For non linear cha racteristics use Sensor correction The specified range in the example 2000 mA to 2000 mA is used as the default for the display area for graphics in ProfiSignal The channel receives the status scale range overrun or scale range underrun when not within the range Channel status values are available in the status monitoring table 83 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology 5 6 5 4 Current sensor type 0 4 20 mA Main settings Advanced settings Additional settings Measuring time Sensor correction Sensor type Mode Connection 0 20 mA v unipolar Shunt 500 Ohm z Scaling Measuring value Scale value 2 Min 0 000 m 0 00 Ih Max 20 000 m 1000 00 Ih The example means 0 mA corresponds to 0 h liters per hour 20 mA corresponds to 1000 I h Mode This setting is available only for sensor type 0 20 mA available For sensor type 4 20 mA the measuring range is always unipolar unipolar Measuring positive signals only bipolar Measuring positive and or negative signals Shunt
28. The counter green curve decreases by one for each edge from the source channel orange curve until the reset trigger becomes active The Generate intermediate values option is enabled so all new counter states are output immediately LogMessage 148 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology v Example of outputting a value Y1 18 0 16 0 14 0 12 0 10 0 8 0 6 0 werte Abwarts 03 27 00 03 27 30 03 28 00 03 28 30 14 03 2011 At the time of value output light blue curve the counter is output The option Gene rate intermediate values is disabled so no intermediate values are output 149 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology 6 Connection examples This section gives examples of typical sensor and actuator connections It explains the available connection options that exist and how sensors and actuators are configured LogMessage 150 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology 6 1 Connecting sensors v Measuring voltages at an analog input Sensors with voltage signals can be connected directly Spannung Analog Input 156mv 10v Info e3 The largest measurement range is 10 V bipolar or 10 V unipolar The smallest range is 156 mV bipolar and 156 mV unipolar v 20 mA current measurement at an analog input Sensors with current signals req
29. Value X 225 Add Save X Setpoint table created using the device s context menu 2010 2012 Delphin Technology AG 73 LogMessage July 2012 LogMessage Delphin echnology Method 1 Click New to create a table 2 Change the Table name if required 3 For each table row program step enter the time value Time with the unit of time and to be used and the value to be output 4 Click Add 5 Enter the required Global Settings 6 Click Save A table can be imported as well as created mport Numbers constants or variables can be used for times and values The variables used in the tables are defined under setpoint channel software channels For time input the va riable may be used as a value or as a trigger Variable value means that the value of the variable is used as time value Variable trigger means that the channel set for the variable is used as a trigger channel A trigger event is a rising edge If this trigger occurs the value that is programmed into the program step for the trigger is applied as a setpoint and the next program step is then performed This me thod enables the upgrade of a basic time controlled program to an event controlled sys tem Global settings Relative time When enabled input times are calculated as a difference to previous time points When disabled time values are taken from the start first value v Example of absolute and relative ti
30. and then deletes the memory when a specified capacity has been reached Store time change When enabled time changes such as synchronizing using NTP time triggers extra saving to the memory group from the channels in the channel list This identifies from the data the cause of the time mismatch Store config change When enabled saves changes to channel configurations in this me mory group along with the time of change version number and configuration file history in the device pm config channels backup directory LogMessage 60 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology v Memory group settings Storage mode tab Channel settings Storagegroup Storage Groupi ProfiMessage SN41030570 ea Main settings Advanced settings Storage mode Channellist USB export 4 Active Channelname Storage Group Unit Location Description Stores measured Data Force storage 7 Save initial values J Cyclic store values Cycle time s 10 Storage control Continuous Single step Edge trigger Level trigger Rising edge Inherite state Pre trigaer time s 1 000 Post trigaer time s 1 000 Retrigaerable Retriager limited to up to limes 4 Previous Next x Abort Help Last change 06 04 2012 12 44 56 463 The following options are available Save initial values When enabled the current values from all chan
31. anzug Aus Ein Quelle DO Time 15 55 06 15 55 08 15 55 10 15 55 12 15 55 14 08 03 2011 Release delay The output of the timer channel becomes active On when the source switches to an active state High level or Low level Trigger or edge triggering Rising edge Falling edge or Edge both triggers The same edge or a source change from active to inac tive starts the delay After the delay the timer s output becomes active Off 03 34 20 03 34 25 03 34 30 03 34 35 03 03 2011 The image shows the signal of a dropout delay with level triggering Retriggerable This option enables a restart of the delay via other source trigger events du ring the delay Delay s Enter either a constant value Manual value or use Channel to select an existing channel whose value determines the delay as a time in seconds Reset A reset event a trigger via Level or Edge ends the delay time and sets the timer output in a non active state Off The reset channel has a higher priority than the sour ce This enables a reset state to block the timer function LogMessage 142 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chralcay v Example of a dropout delay lt coo PONDS oOoOooOoo Quelle 01 Time 14 13 32 14 13 34 14 13 36 14 13 38 14 13 40 14 13 42 09 03 2011 The source purple curve triggers with a rising edge The delay is 2 seconds Retriggera ble
32. are protected by copyright When not otherwise stated the copyright belongs to Delphin Technology AG Lustheide 81 in 51427 Bergisch Gladbach Germany All the trademarks and brands used in this manual refer only to the respective product or trademark holder Delphin Technology claims no rights other than those to its own trade marks and brands 1 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology 1 Safety Advice Connector terminals on I O modules carry electrical potential from the attached sensors actuators Before coming into contact with the connectors ensure the power is off There should be no voltage at the connector terminals when the attached sensors ha ve varying potentials or earthed high potentials e g when measuring the elec trical current of a mains voltage phase Differences in electrical potential between two channels of a module can not be determined from the Measurement data Refer to Potential differences I O module memory card battery installation installation replacement Electronic components are sensitive to ESD Electro Static Discharge Therefore dischar ge any electrostatic energy before opening the device for I O module or memory card in stallation replacement We recommend wearing a wrist band static discharge wrist band and to carry out the work on a conductive surface ESD damage can have varying consequences from minor deviations in
33. been connected the diagram displays the selected wi ring 2 Wire The sensor is connected with only two wires This is recommended only for very short lines and high impedance sensors otherwise the resulting voltage drop across the cir cuits can lead to measurement errors 3 Wire The sensor is connected with three wires Since loss occurs only on one line the measurement error is only half as large as in two wire connections 4 Wire The recommended connection method for low impedance sensors and or longer supply lines The loss of feed lines does not matter because the device has a high ohm in put resistance no voltage drop on the line feed and the voltage drop the unit of measu rement can be measured directly at the sensor Info 63 No choice of wiring is available for YSI400 sensors LogMessage 86 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay 5 6 5 6 Thermocouple sensor type Main settings Advanced settings Additional settings Measuring time l Sensor correction Sensor type Connection NiCr NiAl K Measuring range Temp Format 270 0 1372 0 C M t T Scaling Range of validity 2 Min 270 00 TE Max 1372 00 E The example shows the settings for a thermocouple type K NiCr NiAl nickel chrome and nickel aluminum alloy Sensor type select your type of thermocouple The letter type and material type of the thermocouple wires are giv
34. chnology v COM2 Interface Type RS485 interface Connector 9 pin D SUB connector pin assignment to IEC 61158 EN19245 T1 Galvanic isolation 1 kV no isolation to COM3 mum LE v COM3 v COM4 Interface Type RS232 interface Connector 9 pin D SUB connector pin assignment according to DIN 41 652 part 1 ISO 4902 such as PC connector assi gnment 169 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin echnology 8 2 I O modules 8 2 1 I O modules AAST ADGT ADIT and ADVT v Analog inputs Number of inputs AAST 4 ADGT 8 ADIT 10 ADVT 15 Voltage measuring ranges 156 mV to 10V bipolar and 156 mV to 10 V unipolar Current range 20 mA 0 20 mA and 4 20 mA Current measurement requires a load resistan ce of 10 500 2 Sampling rate AAST ADIT and ADVT Max of 600 measure ments s ADGT Max 60 measurements s Sequential sampling A D measurement time for each channel individually adjustable Input impedance gt 1 GQ at ADGT 10 M Measurement error DC Voltage 0 01 of measurement range current end value Pt100 0 1 K Pt1000 0 1 K Thermo 0 1 of end value following couples compensation Thermocouples Built in cold junction built in external optional NiCr NiAl K NiCr CuNi E NiCrSi NiSi N Fe CuNi L Fe CuNi J PE10Rh Pt S Cu CuNi U Pt13Rh Pt R Cu CuNi T Pt3ORh Pt6Rh B W5Re W26Re C Me
35. chology Regulations according number of usable analog inputs e Using a digital high pass filter or band pass filter can be limited to 1 4 analog inputs depending on board revision An overview is available in the section digital filters Using a digital integrator can be limited to 1 4 analog inputs depending on board revision An overview is available in the section Integrator e The application Vibration severity measurement with acceleration sensors using a digital band pass filter and an integrator can be limited to 1 4 analog inputs de pending on board revision Details on this application are described in the manual Applications with AMDT e The application Bearing diagnostics with envelope spectrum using a digital demodu lation filter can be limited to 1 4 analog inputs depending on board revision Details on this application are described in the manual Applications with AMDT Regulations according phase measurement Be aware of the following when using phase characteristic in rotating machinery Phase measurement can be used only for low rotation speed typ lt 500 RPM Acquisition of 1 to 10 signal periods within a time signal block is significant Refer here to the sections on cha racteristic phase of main amplitude and characteristic phase of 1X 2X 3X xX component 183 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay 9 3 Hardware 9 3 1 Connector pan
36. data recording through to full system failure LogMessage 2 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology 2 Introduction Dear User Thank you for purchasing a device from the LogMessage series You have acquired a high quality product with extensive options for data acquisition and processing This manual is included in the delivery Always keep the manual available for reference To avoid any damage occurring to yourself or your equipment carefully follow the guidance and safety precautions given in this manual If your equipment has a problem that this ma nual does not address please contact us This manual is intended for technicians and engineers or similarly qualified persons wishing to use the device If you find errors in the product or in this documentation or if you have any suggestions for its improvement we welcome your feedback Contact Delphin Technology AG Lustheide 81 51427 Bergisch Gladbach Refrath Germany Telephone 49 2204 97685 0 Telefax 49 2204 97685 85 Email info delphin de Internet www delphin de Contact USA Delphin Technology Corp 4860 Cox Road Suite 2000 Glen Allen VA 23660 Virginia USA Telephone 1 804 217 8391 Telefax 1 804 747 6182 Email info delphin com Internet www delphin com 3 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin 2 1 chnology Included in delivery Included in deliv
37. decompression is 2 9o max 2010 2012 Delphin Technology AG 239 LogMessage July 2012 LogMessage Delphin chnoloay Averaging A frequency spectrum can be averaged within the device via measurement cycles n 2 32 The ntermediate block values transmits a frequency spectrum corresponding at averaging level 1 2 3 n for each measurement The End block value transmits a frequency spectrum at a corresponding averaging level only after n measurements Order analysis When order analysis is enabled the evaluation software e g ProfiSignal will be infor med that the measured frequency spectrum is to be portrayed as an order spectrum The spectrum is then normalized to the measured rotation This requires that a rotati on pulse is connected and a frequency measurement is activated Speed measurement tab Main settings Advanced settings Mode Trigger Recording Time signal FFT Spectrum Speed meas Mode for counters S Pulse count 9 Frequency measurement Gatetime 1000 ms Speed measurement Source Digital Input 1 X Redundancy mode Off Single stage Double stage Counter mode Both counters are assigned directly to first two digital inputs Two modes are possible e Pulse counting e Frequency measurement Settings are made simultaneously to both counters Pulse counting is consecutive 16 bit 65536 and reset is not possible Frequency measurement takes place automatic
38. does not exist between CAN and COM1 20 2010 2012 Delphin Technology AG LogMessage Delphin chraloay Y COM2 COM3 RS485 RS232 Description COM3 RS232 data Plus RS485 Control signal for repeaters TTL Te GND C Data reference potential neutral Request to Send RS232 RxD TxD Receive transmit data Negative N CN A Transmit data RS232 Info Galvanic isolation does not exist between COM2 and COM3 21 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology Pin assignment LENLONLU UN DENEN ON DENEN ONSE LogMessage 22 July 2012 2010 2012 Delphin Technology AG a hin Technology Del LogMessage I O module connections terminal blocks 4 6 Devices can be equipped with different modules Below are the the wiring diagrams terminal assignments for the various I O modules in alphabetical order AAST Notes AAST Jeuueu amme hegre L ZI jouuey LL OL jeuueyo jauueyo d 0L jauueuD 2x emu Peor gieweus mee 1 jauueyo pono p mano S SENS Bojeuy ry g jeuueyo uonounr Joy p jeuueyo wna e jnduj E y euueus Bojeuy ee 0D jnduj P Jeuueu Bojeuy c euueu ume Ee jndu 5 z jauueyD Bojeuy Pu
39. dou O Hz o xm o tone Hz dH O Hz Frequencies can be measured between the lower limit at 2 fs ns and the upper limit at fs 10 for selected parameters recording parameters The measurement value equals 0 beyond these limits Below is the corresponding configuration dialog Main settings tab Scaling Measuring value Scale value Mn 0 Hz 0 Hz Max 1 Hz 1 Hz 4 Positive edge Threshold 0 9 4 5 11 Characteristic Maximum of vector sum The DSP performs vectoral addition of all amplitude values from the time signals of two neighboring channels e g analog inputs 1 2 3 4 and then determines the maximum value a ty With x 2 Amplitude of point i first channel y Amplitude of point i second channel z Vector sum of point i 219 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology OptionsSmooth curve Eliminate glitches Smooth curves prior to determining characteristic values may be applicable to periodic si gnals that have noise or distortions These two settings are available in the Options tab Main settings Advanced settings Scaling 10000 m 10000 10000 m 10000 Smooth curve F Eliminate glitches 9 4 5 12 Characteristic Mean of product The DSP multiplies all amplitude values from two time signals of two neighboring channels e g analog inputs 1 2 3 4 and then determines the mean value wi
40. field Stored channels e If Relative tolerance is enabled data is not displayed according to the channel s unit but as a percentage based on Conversion in the Main settings tab LogMessage 62 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology Info Make the Tolerance for channels being saved settings before clicking A subsequent change to the settings will be ineffective For the change to be effective the channel first needs to be deleted and then reinstated v Settings for USB export Channel settings Storagegroup Storage Group ProfiMessage SN41030570 pm 4 Active Channelname Storage Groupi Unit Location Description Stores measured Data Main settings Advanced settings Storage mode Channelist USB export USB export E allowed anonym allowed Previous Y Next X Abort Help Last change 06 04 2012 12 44 56 463 Activate this option to export data from a memory group to a USB memory stick allo wed Refer also to Data transfer to USB memory stick 63 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay 5 5 Data transfer to USB memory stick Acquired data can be copied to a USB memory stick without the device having to be connected to a PC There are two options for the transfer of data 1 Data transfer without configuration 2 Data transfer with tra
41. i i i i 14 55 34 14 55 36 14 55 38 14 55 40 14 55 42 14 55 44 17 03 2011 With a rising edge in the start channel green curve the stopwatch starts red cur ve Because Reset at start is enabled the stopwatch begins at 0 The rising edge of the reset channel blue curve stops the stopwatch The recording time is the time bet ween the two edges 6 2821 seconds 139 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay Case 2 Setting Start at Rising edge Reset at Rising edge Reset at start is enabled and Ret riggerable is enabled Y1 15 07 44 233 15 07 46 464 2 231 sec Stopwatch 0 0000 Seki 2 2234 Sekunden 2 2234 StopWatch Trigger VarigEin 4s i Stopwatch Start Variabi Ei 15 07 40 15 07 42 15 07 44 15 07 46 15 07 48 17 03 2011 With the first rising edge of the start channel green curve the stopwatch starts red curve Because Reset at start is enabled the stopwatch begins at 0 The second rising edge of the start channel resets the timer back to O The rising edge of the reset channel blue curve stops the stopwatch The recording time is the time between the the start channel s final edge and the edge of the reset channel 2 2234 seconds LogMessage 140 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology 5 8 20 System monitor This software channel displays system information such as CPU load or memory usage
42. indicates that each new value from the source is stored to the data series trigge ring calculation of the minimum or maximum from the accumulated values and outputting the result If the number of values reaches the specified maximum the data series is then full and a new value from the source then overwrites the oldest value A device reboot or a configuration change deletes all the accumulated values Block calculations The number of values in the data series is determined by the frequency of new source values within an interval set by trigger events A change in the specified chan nel creates the trigger event Several statistical functions are available in this mode Edge triggering The selected function is calculated at the time of the trigger event from the data series that has accumulated between two trigger events After calculation the result is output and all the accumulated valuesare deleted LogMessage 134 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology Level triggering When a level moves from an active to inactive state the selected function is applied to the values accumulated during the active level period The result is output and the accumulated values then deleted Generate intermediate values When enabled the results between the trigger events are imme diately output after calculation with each new source value Refer also to Trigger options Definitions The minimum is the
43. input Digital inputs have two variants e Input for level recognition e Inputs for frequency measurement or counting Not every input is usable for both functions Level detection Netzteil Sensor Digital Input Info The I O modules AAST ADFT AMDT DIOT and IOIT OTPT have digi tal inputs for level detection For reliable detection the input signal must have a low level ranging from 0 1 5 V a high level ranging from 3 5 90 V and a minimum pulse width of 1 ms A maximum of 50 signal changes per second maxi mum signal frequency can be recorded 153 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology Frequency measurement pulse counting Sensor Netzteil Ca 24Voc Info The I O modules ADFT and AMDT DIOT have digital inputs for fre quency measurement pulse counting For reliable detection the input signal must have a low level ranging from 0 1 5V and a high level ranging from 3 5 90V The maximum measurable signal frequencies are 50 kHz for the ADFT and AMDT modu le and 30 kHz for the DIOT module LogMessage 154 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology 6 2 Connecting actuators v Actuator at an analog output The I O modules AAST and ADIT have power sources as analog out puts The maximum permissible load resistance of the actuator is 650Q Analog Output
44. inputs connector Input protection to 250 V Sampling frequency Real synchronous parallel sampling e Non continuous sampling A max sampling frequency of 20480 Hz for 8 channels gives a total sampling rate of about 160000 samples s e Continuous sampling A max sampling frequency of 1024 2048 4096 Hz for 8 4 2 chan nels gives a total sampling rate of about 8000 samples s Signal bandwidth Anti Alias Filter HW Signal bandwidth is DC to 8 kHz 0 8 kHz Transfer rate for measurement data A max 10000 samples s Measurement range Seven voltage measurement ranges are available 0 4 20 mA signals can be converted to voltage signals using terminating resistors of for example 50 100 250 Q Resistors are to be externally attached between the and connectors 187 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin achnoloay Accuracy DC accuracy is factory set using calibration and adjustment Basic accuracyn is 0 1 to 0 4 of the unipolar measurement range aa DC DC accuracy For 0 4 20 mA signals terminating resistors need to be used that have an accuracy greater than 0 1 AC coupling The differential input is factory set as DC coupled Switching to AC coupling is possible using a DIP switch on the signal conditioning board The DC part of a signal is eliminated through a HW filter Cut off frequency is around 4 Hz The DC part of a
45. issues no more pulses the next pulse would be due at 8 49 30 Pulses begin again only after deleting the reset signal level Low The cycle time indicates that the next pulse will be output at 08 49 50 LogMessage 114 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology v Example 2 Main settings Advanced settings Pulse mode Free running Synchronic to real time 7 Source High level v OF Trigger_ImpulseGenerator Y Inherite state Pulse width Channel 02 Pulsewidth ImpulseGenerator w 4 Inherite state 0 Manual value i Cycle time Channel 03 Cycletime ImpulseGenerator v 7 Inherite state O Manual value 4 Termination of current cycle F Reset High level 4Reset ImpulseGenerator x Pa E Inherite state In this example the pulse generator runs in controlled mode The trigger is enabled by setting High level High The pulse width and cycle time are set by other channels Note that these channels may not issue negative values no negative times nor con flicting values such as a pulse width greater than the cycle time Another channel is gi ven for the reset 115 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology Y1 Impulse D4 Res 01 Trig 09 12 20 09 12 30 09 12 40 09 12 50 09 13 00 04 03 2011 The pulse generator red curve is st
46. necessary Table tab A table can be imported as well as created mport 121 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology There is a choice of modes Offset An offset shifts the curve by a fixed value i e the given value is added to the mea surement value Offset and Gradient Allows a shifting of the curve and an increase in its gradient Squarely Generates a quadratic curve through the given points to linearize the measured va lues Linear interpolation Enter a table for the conversion of measured values into display values Linear inter polation takes place between the given points Spline interpolation An optimal fitting polynomial 3rd degree cubic spline is determined using spline in terpolation for the given values This is then used to to convert the measured va lues Info You can use copy and paste to transfer data from an Excel table into the dialog s table Position the cursor in the table s top left field Extra rows are created automatically when this is permitted by the selected mode Click on a row and use the Del key to delete unwanted rows Insert extra rows in a linear interpolation using the Return key A created table can be exported and then re imported later Export and Im port LogMessage 122 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology 5 8 10 Logic This software channel enables the log
47. ponents of LEDs Hardware failure e g the device connected to the Power USB port requires too much power orange Power supply OK Status 1 red Multifunctional display green Flashing green Module OK Flashing orange Main program has ended no data acquisition processing Status of I O module Permanent normal functioning Slow flashing BUS identification For ADFT ADMT Slow flashing new firmware being saved Fast flashing firmware being downloaded Battery 1 red Battery failure battery low The battery for the clock and emergency data backup is flat and must be replaced Refer to Inter nal battery replacement 1 LogMessage 18 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology Com Number Description ponents of LEDs COM3 orange COM4 orange 19 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay 4 5 COM interfaces CAN COM1 CAN LogMessage July 2012 signal Description COM1 RS485 Description CAN Shield Shield protective ground refer to earthing Shield Shield cC ground refer to earthing CANL CAN Bus Low RxD TxD Receive transmit data Plus P B RS485 Control signal for repeaters TTL GND C Data reference potential neutral eer Supply voltage Plus 5V CANH CAN Bus High RxD TxD Receive transmit mn N A RS485 Not connected Info Galvanic isolation
48. pulses A Trigger signal b digital e E 21 1 A j c 1 F1 Fl Fl 4 gt Comment to illustration above In example a the trigger signal starts recording Recording stops when the recording time parameter for has been reached refer to the next section In Examples b and c the trigger controls starting and stopping of the recording irre spective of the trigger pulse parameter In the event that the stop trigger does not occur recording is limited to the recording time parameter refer to next section Recording parameters A vibration wave signal associated with a time signal is recorded according to three para meters sampling frequency number of samples and recording time A frequency spectrum is determined according to the parameters frequency range number of lines frequency re solution Parameters are related to each other and their settings therefore influence one another The following table provides an overview 205 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin echnology Dese emm mme mem o mem n mem Demeswme m me M SS S S S S S S S S S LL Frequency range fra fs 2 56 2560 2 56 1000 Hz Number of lines Im nli 2 ns 2 56 2048 2 56 800 Frequency resolution 2560 Hz 2048 1 25 Hz 9 4 2 1 Redundant trigger source When triggering takes place via an external digital signal the trigger source can be auto matically switched in the
49. s connected com ponents The following image shows 8 analog input channels Analog input 1 has additional derived channels lip C DataService Configurator Connect View Options Help Connections Channels Database Alerting Scheduler User management 3 853 ProfiMessage ProfiMessage SN41030570 PoND 232 EH ts System Monitor E a 1 0 Module 1 AMDT Module AMDT 226 Blocks B Hes Analog Input 01 5026 25 my FFT Analog Input 01 FftSpectrum 5041 35 mV Qr Analog Input 01 MearVal 16 85 mV p Analog Input 01 PeakPeakVal 1008032 mv Hos Analog Input 02 4524 72 my 32 gt Analog Input 03 0 00 mV o Analog Input 04 0 00 mv 32 gt Analog Input 05 3 66 mV Hos Analog Input 06 3 66 my 32 gt Analog Input 07 2 44 mV 3 Analog Input 08 1 22 mv The Analog Input x channel deliver the time signal as block of measured data The value shown here is the maximum value of the time signal The Analog Input x FftSpectrum channel delivers a frequency spectrum as a block of measured data The value shown here corresponds to the spectrum s peak amplitude The following image shows the other channels from the I O module AMDT 2 analog out puts 2 counters 4 digital inputs and 4 digital outputs The two counters belong to the first two digital inputs LogMessage 232 July 2012 2010 2012 Delphin Technology AG LogMessage 25 Analog Output 1 foes 35 Analog Output 2 l n
50. server Click Synchronize wth NTP servers now to commence synchronization with the NTP time server specified under Network LogMessage 46 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay 5 2 2 3 NTP status This window displays detailed information about the NTP time server e g about server IP signal delay and jitter variations The information is for users who are familiar with NTP protocols and who wish to identify errors in timestamp transfers or time server responses Info NTP synchronization requires up to 5 minutes to adjust to the NTP time ser ver after the device has been switched on The NTP status will be invalid during this period and will display the message Synchronised to unspecified at stratum 13 The following is an example of the NTP status only the beginning is shown NTP status synchronised to NTP server 192 168 248 40 at stratum 3 time correct to within 64 ms polling server every 1024 s remote refid st t when poll reach delay offset jitter timeserver aeol 192 53 103 103 2 uw 190 1024 377 2e de 1 481 0 102 LOCAL 0 LOCL 12 d 7 64 377 0 000 0 000 0 001 ind assID status conf reach auth condition last_event cnt i 14466 9614 ges yes none sys peer reachable 1 2 14467 9014 yes yes none reject reachable 1 assID 0 status 0664 leap none sync ntp 6 events event peer strat chg version ntpd 4 2 4p2 1 1495 Tue Apr 1 23 30 05 UTC 2008 1 processor pp
51. smallest value within the data series e The maximum is the greatest value within the data series The variance is the mean square error relative to the mean The standard deviation is the square root of the variance not the average deviation The True RMS is the root from the sum of the squares of the values by the number of values The arithmetic mean also called the average is the sum of all values of a data series divided by the number of values The geometric mean is the Nth root from the product of n values The harmonic mean is the reciprocal from an average of reciprocals Refer also to Trigger options 5 8 18 Status monitor This software channel monitors the source and becomes active switches to On when the source contains the specified state Potential alarm functions and their meaning ewan oeme Measuring range The measured value is above the range for the A D converter overrun Measuring range The measured value is below the range for the A D converter underrange Hardware failure Error in the hardware Simulated value An internally generated value for testing Not A Number The result of a calculation is not a valid number e g a root from a NAN negative number Infinite value INF The result of a calculation is infinity infinity e g division by zero 135 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin echnology Default value Default value for the mo
52. tem Monitoring group tJ Some of the system monitoring functions are already created in the Sys Optional system information C e aon CPU usage Displays the overall CPU usage unit on sition and calculation Displays the amount of used memory Up time system Displays how long the operating system has been Days working i e the time that the device has been on since the last reset Up time application Displays the time that the main program has been Days running i e the period following a Reset main appli cation or from a switching on of the device or from a Reboot of the device 5 8 21 Timer This software channel enables the changing of source signal times This permits for exam ple new trigger times to be created for a subsequent channel or defined signals to be ge nerated for outputting to the process A Response delay mode temporally compresses the si gnal source and a Release delay temporally expands a signal Response delay The timer channel starts the delay at the source s change to an active state High level or Low level trigger After the delay the timer output switches into an acti ve state On for as long as the source retains an active state If source s active state is shorter than the delay no reaction takes place at the timer output 141 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chraleay Cursor 2 15 55 08 402 2 032 sec 00 Timer
53. the next program step is then performed This me thod enables the upgrade of a basic time controlled program to an event controlled sys tem 133 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin echnology Global settings Relative time When enabled input times are calculated as a difference to previous time points When disabled time values are taken from the start first value v Example of absolute and relative time input The numerical values are fixed values and in this case refer to identical time points The final time is 7 the unit is not stated but might for example be minutes Example In the table in the example the value for vari is held for the first 15 minutes Then after each 6 minutes Relative time setting the value increases to var2 then lowers to var3 via varl and then increases again to vari A change and therefore output of the new value takes place every second Cycle time The cycle time for values to be output between two program steps Intermedia te values are linearly interpolated i e calculated using a linear equation The intervals used in the table should be as integral multiples of the cycle time 5 8 17 Statistics This software channel enables a source to be evaluated with a range of statistical functi ons Moving minimum maximum This minimum or maximum is calculated from a configured series of values numbering from 2 to 1000 values Moving
54. the two retaining lugs at the housing sides and le ver towards the front 6 Remove the memory card from its slot using long nose pliers or a similar tool 7 Push in the new memory card with its handle pointing towards the board until it stops Use only gentle pressure and do not force The card fits in one direction only 33 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology Installation Follow the above procedures in reverse order but taking the following into account e Check that all connector pins fit into the sockets of the inner board and that the boards are in parallel alignment e Make sure that the boards keep within the side slots when installing them into the base board LogMessage 34 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology e Note that the front fits only in one direction to the bottom part It may be necessary to rotate the module through 180 degrees e Do not fully tighten each screw one after the other Lightly tighten one screw then move to the next repeating the procedure until all screws are fully tightened 35 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology 4 9 Internal battery installation Electronic components are sensitive to electrostatic charge Therefore discharge any electrostatic before opening the device to replace the battery We recommend wearing
55. thermometer being used Pt100 Pt1000 or Ni500 etc The numerical values for the platinum and nickel thermometers correspond to their resistance at 0 C YSI400 is a special NTC resistor mainly used in the medical field temperature range 80 to 250 C resistance of 1660 6400 Measuring range Select the measurement range being used Depending on the version of the sensor only a limited range may be permissible Refer to the sensor s technical data The default is always the sensor s maximum possible measuring range The channel receives the status measure ment range overrun underrun for measurements not within the range Channel status va lues are available in the status monitoring table 85 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology Temp Format Select the unit of measurement in which the temperature is to be displayed Conversion is performed automatically within the device C Degrees Celsius K Kelvin F Degrees Fahrenheit R Rankine R Degrees R aumur Scaling Enter the range for valid sensor signals The specified range in the example 260 C to 850 C is used as the default for the display area for graphics in ProfiSignal The channel receives the status scale range overrun or scale range underrun when not wi thin the range Channel status values are available in the status monitoring table Connection Indicate here how the sensor has
56. to 25 or 20 ko Measuring point scaling must be performed using the DataService Configurator program to raise the factor to 2 5 or 2 0 External AC coupling AC coupling can be achieved with symmetrical capacitors The recommended wiring ap pears as follows 1 0 module AMDT o 11 0 1 to 1 uF 50V gt tre Non polarized capacitors must be used The input high pass has a cut off frequency of 4 0 4 Hz External AC coupling is useful for mobile systems For fixed installations refer to AC coup ling for analog inputs LogMessage 192 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology External supply for ICP acceleration sensors Basic supply and coupling of measurement signals can be achieved with three components The recommended wiring appears as follows 24V OV I O module AMDT 4 7mA i 1 pF 50V The sensor is supplied through a constant current diode An external source of 24 V is required The dynamic signal undergoes capacitive separation from the static DC operating point voltage The capacitors and the AMDT input resistors form a symmetrical high pass with a Cut off frequency of 0 4 Hz 193 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay 9 4 Functions 9 4 1 Operating mode 9 4 1 1 Non Continuous recording This is the preset operating mode for the I O module Recording evaluation and measure
57. to Update firmware Displaying of the changes to the current firmware compared to the previous version using Firmware changelog The Adobe Acrobat Reader is required The Acrobat Reader can be downloaded cost free from Adobe Refer to Updating firmware Restarting the device using Reboot This has the effect of switching off and on Refer to Rebooting the device Restart main application only restarts the software for data acquisition and storage or transmission Refer to Restart main application This is faster than fully rebooting the device 5 2 5 1 Update firmware e3 Info A firmware update can be performed only via the web interface A firmware update is provided with every software update Perform both updates to ensure software and hardware are being used with their latest versions Errors may otherwise oc cur in data acquisition or configuration The device s current firmware version is also dis played in this window The device s power supply must not be interrupted during firmware upda ting otherwise damage may occur to the equipment that will require repai ring 51 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology Enter the file with the new firmware in the New firmware file field on click Search to find the file on your PC and then click Start firmware update The firmware upgrade takes 4 to 6 minutes ao LogMessage 2000 LogMessage aeolus local Del
58. type Main settings Advanced settings Additional settings Measuring time Sensor correction Sensor type Mode Caneco Voltage v unipolar X Measuring range 5000 00 mV M Scaling Measuring value Scale value 2 Min 0 00 my 0 00 my Max 5000 00 mv 10 00 mv The example means 0 mV corresponds to O bar 5 V corresponds to 10 bar Mode unipolar Measuring positive signals only bipolar Measuring positive and or negative signals LogMessage 80 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology Measuring range Select a measuring range that is equal to or greater than the signal from the sensor or si gnal source to prevent A D converter overload The channel receives the status measu rement range overrun underrun for measurements not within the range Channel status va lues are available in the status monitoring table Scaling Enter two points from the sensor s characteristic curve if possible the lower and upper vertexes For a linear characteristic measurement values are then converted into the unit of measurement scaling from the sensor For non linear characteristics use Sensor cor rection The specified range in the example O to 10 bar is used as the default for the dis play area for graphics in ProfiSignal The channel receives the status scale range overrun or scale range underrun when not within the range Channel status values are avail
59. 0 2400 3000 U min 0 10 20 30 40 50 Hz 9 4 5 15 Characteristic RMS value band 1 2 3 The DSP determines calculates the RMS value root mean square using all the lines wi thin a specific frequency band of the frequency spectrum The frequency band is determi ned via the f middle and f width The frequency band can be fixed or adapted to rotati ons y with x Amplitude of line i within frequency band n Number of lines within frequency band k Index of line with lowest frequency within frequency band m Index of line with highest frequency within frequency band y Calculated RMS value A f Bandi 1 24 e 223 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology The following formula is also available Alternative formula aa i m 2 pgs disk Xi Refer also to Amplitude of maximum line band 1 2 3 characteristic value Hint It is recommended that the frequency band is set so that the left and right limits are loca ted between the spectral lines Each spectral line will then clearly lie within or without k gt fm sfw a m lt fm gt fw a n m k 1 with a Frequency resolution Example A sampling frequency of 2560 Hz and 4096 samples delivers a frequency spectrum with 1600 lines and a frequency resolution of 0 625 Hz A frequency band midpoint of 100 Hz and a width of 6 Hz This results in values for k m and n of k g
60. 10200 SEBTCBF 7 Ok ee amp 1 0 Module 1 ADFT Module ADFT 031010200 42BCA33E Hardware failure Deleting a module entry permanently deletes the entire module configurati on including all hardware channels Therefore prior to deleting back up the current configuration via the web interface Refer to save load confi guration 77 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology Delete the entire module entry when the module configuration is no longer required Click Delete channel along with subchannels links from the module s context menu E l Interfaces 0431010210 0399943 gar amp Say 1 0 Module 1 ADVT M i Temp Voltage c Hoz Temp PM S Properties Delete channel along with subchannels links Configuration 5 6 4 I O module AMDT The AMDT I O module on vibration measurement is dealt with in a separate chapter Refer to E A Modul AMDT Channel configuration settings are described here I O module AMDT Configuration and operation LogMessage 78 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology 5 6 5 Analog input Configuration options in the Main settings tab depend on the sensor type e Voltage e g 0 10V e Resistor e Current e g 4 20 mA e Resistance thermometer e g Pt 100 e Thermocouple e g type K NiCr NiAI e pH probe The Additional settings tab is identical for all analog input sensors b
61. 192 168 254 254 MTU 1500 Time zone synchronisation NTP server 127 127 20 3 Time zone Germany Berlin Y Cancel Help After amending the P address or subnet mask the device is then accessible only via the new address The PC s IP address and possibly subnet mask then also requires amending to establish a connection The Hostname network name for the device domain and DNS server are used to convert network names into the corresponding IP address Leave the DNS server field empty when a DNS server is unavailable on the network Do not use invalid characters for network host and domain names no underscores or special characters and only ASCII characters i e no German umlauts etc but hyphens are allowed Ask your network administrator whether your network requires MTU and gateway informati on Otherwise leave the default setting of 1500for MTU A gateway address is required on ly if connections are to be established to other networks LogMessage 58 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology For the NTP server field enter the IP address of one or more available NTP time servers NTP Network Time Protocol to enable correct time settings for the device The NTP time server can be any other network device such as a PC or another LogMessage device The integrated Windows time server SNTP Simple Network Time Protocol is however not re commended due to
62. 2 2010 2012 Delphin Technology AG LogMessage Delphin chraloay 9 2 2 Symbols used in this documentation To make reading of this manual easier we have used the following symbols This symbol warns of a potential hazard which if the safety requirements are not followed may be fatal or cause serious physical injury Indicates important information Info e3 Refers to a special option or explains a special feature We use italics to highlight individual words within the text Keyboard input is highlighted in this way Program menus have a grey background with arrows indicating the respective sub menus which need to be accessed Connect Add driver connection gt LogMessage device Also highlighted in grey and displayed in italics are the dialog headings buttons check boxes input field names etc Display status This should help you to find the relevant fields and buttons or menus within the correspon ding software Symbols on the device CE The CE symbol guarantees that products meet the requirements of relevant EU directives 181 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin 9 2 3 Technology Project planning LogMessage systems are made up of a base device and optional extension devices the graphic shows a LogMessage system Expansion bus Pressure Temperature Rotations Vibrations Flow Digital I O Meter reading Each installed I O module comm
63. 20 14 37 30 14 37 40 17 03 2011 The stopwatch starts red curve at a high level in the start stop channel green curve Once the level reverts to low recording stops The recording time is the high level time 137 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology Case 2 Setting Start Stop at High level Reset at start is disabled Cursor 1 14 25 19 062 StopWatch 1 5478 Sekunden StopWatch Start Variable Aus 14 25 27 951 8 889 sec 10 4060 Sekunden 8 8582 14 25 15 14 25 20 14 25 25 14 25 30 17 03 2011 The stopwatch starts red curve at a high level in the start stop channel green curve The last measured value was 1 5478 seconds Once the level reverts to low 8 8582 seconds calculated from the beginning of the high level recording stops The last measured value is added to the the current runtime The stopwatch thus con tains the value of 10 4060 seconds LogMessage 138 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay v Example 2 Case 1 Setting Start at Rising edge Reset at Rising edge Reset at start is enabled 14 55 34 636 StopWatch 13 1478 Sekunden 6 2821 Sekunden 6 8657 nod ____ Stopwatch Trigger Variable Aus Eim 5 0 StopWatch Start Variable Aus i Ein Stop Stop i INN i i i i i i i i i inn i i
64. 79 Analog output 92 Average 127 Basic channel selection 103 Basic device configuration 56 Basic Settings 13 Batch alarms 131 Calculation channel 128 CAN interface Configuration 94 CE symbol 6 Channel configuration LogMessage 55 Channel configuration overview 41 Channel groups 102 Channel selection Advanced 103 Basic 103 Clock settings 46 COM interfaces Configuration 94 Wiring 20 Compensation 79 Configuration via an internet browser 43 Configuring a LogMessage device 56 Configuring main unit 56 Counter 146 Current sensor type 83 Current sensor type 0 4 20 mA 84 261 Delphin chnology mm D mm Data reduction 105 Data transfer to USB 64 Default configuration 49 Default value 105 Deleting module entries 76 105 Device 14 Device Configuration LogMessage 55 Device connections 14 Device ID 56 Device memory 60 Dialog footer explanation 66 Dialog for main settings sensor compensation 69 Dialog header explanation 66 Differentiator 106 Digital input 91 with counter function 89 with frequency measurement 89 Digital output 93 Earth loops 160 Earthing 159 Edge trigger 102 ESD protection 163 Establishing a connection to the device 10 Ethernet interface 94 Examples Connecting actuators 155 Connecting sensors 151 Explorer view 55 External linearization tables 71 External setpoint tables 73 Firmware changelog 53 FlipFlop 107 Format 105 Galvanic isolation 158 Gateway 44 58 Getting st
65. 9UD egi jouueyg e Vc cy jauueyd indu N J uno9 OZ V V Jeuueu ex8 ADFT and AMDT have identical terminal assignments For technical reasons only one ADFT module per system can be used LogMessage 25 July 2012 2010 2012 Delphin Technology AG n De l phin LogMessage DIOT Notes DIOT Ov 9E ZL Z joUUeYD Z jeuueyo Ov bP jeuueYyd 6 0 Jeuueu 8 6 Jeuueu Ze 8 Jeuueu ge 4 Jeuueu Ajuo yndu jeybiq yndu J yuno9 yndu jey61g S 0 9 Jeuueu Ge 9 jeuueYyD ve S jeuueu ce p leuueu ze euueup Le zjeuueup oe jauueYd yndu Jojunoj jndu jeyeiQ gz jeuueuo 4z euueup gz euueuo gz jauueyo yc jeuueyd z jauUeY zz jeuueYyo Lz jauueyo 8e Lc Jeuueu jndino jeubiq oZ Jeuueu 6 jeuueyo 9 jeuueyo L4 jauueyo 9 jeuueyo G Jeuueu pL jauueyo jeuueyo 0c Jeuueu jndino jeu iq 1 2 3 4 5 6 7 8 9 1011 12 13 14 15 16 17 18 19 20 21 2223 24 25 26 27 28 29 30 31 32 33 IOIT Notes lOIT Q
66. Delphin Technology AG LogMessage Delphin chraloay 9 5 1 8 Configuration settings for counter Refer also to the technical specifications for the counter and the section on measuring frequency and rotation The measuring frequency or counting pulses mode is set under the Measuring rotation tab Refer to configuring setting an I O module Unit The preselected unit for frequency measurement is Hz Enter here the desired unit v Main settings tab Main settings Advanced settings Sensor conection Seeing Connection Measuring value Scale value Min 0 0 Hz Max 1 1 Hz 2 3 ch see A 1 sence 4 5 Low 0 1 5 VDC 0 1 5 m High 3 5 90 VDE 3 m Scaling Sets conversion factor for the measurement As a choice of two points of a linear orde ring 251 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology 9 5 1 9 Configuration settings for digital output Refer also to the technical specifications for digital outputs v Main settings tab Main settings Advanced settings Value source Channel ImpGen 3s X V Inherite state E Connection Invert gt r3 baat A ted mas 5 VDC 2 5 ADC Source Source selects from various signal sources e Application Output data is controlled via a ProfiSignal application e Channel Output data is controlled via a DataServic
67. E RANARRRNRNAAN 151 Connecting actuators essssseeeseesssssen enn a aan nna aan 155 7 Measurement technology e eese serene nenne nnne 157 Galvanic isolation eeeesssssseeee eee nesne enn nhnnnm nnn aan 158 Earthilng ET Rusa rna EEEENNS nau uE EARS ENS a EU MA NS Nu EE EN NERR FREE 159 Earth loops eeeeessssseeeeena ahhh nee eee 160 Shielding eeeeeeeieeeeeeeeueseee enhn nhanh RRRA ANANN nnn 162 ESD protection eeessiseeeerrrssssne eee ea nana eee 163 Potential differences eeeseisieeeeeseasnee eene anna ann nn 164 8 Technical specifications e eee eeeie eese rsen nenne ananas 166 Main deviCe ee eooanse enu aaaui uua aRanRRR RR RRRRRRRRRRERRRRRSRSRSRRARASR ARR RRAN 167 I O modules orte Lo eren Ra rm REEREREEMEEERENERERAMEERRXERRERASRSERAGSS 170 I O modules AAST ADGT ADIT and ADVT eeeeeenne 170 I O modules DIOT IOIT and OTPT sssssseessssssee eee 173 I O module ADFT zs vsexki ku xA YER ERERERTRARRERERENINE RAE RC REX NERA E EAS 175 VO modules AMDT 4 sccus sea ett aaO REEF Y RO RE ORG RU COR n 177 9 I O module AMDT xcxsusbsaxcssanasK Ea Dn Ea Rami inb EHE xad EFIA i law as Capri 178 Safety advice ssssseseeseeiseeseeeunnaansnn nhau aan uua a ann 179 Introduction eeseeissseeeeenasanse neun aha nuu a
68. LogMessage HARDWARE MANUAL LogMessage Installation and start up Type 1000 to 9000 la laa x iiaia SON a ATURA SORRA BARA Delphin Termino AG Phone 4m 0 2204 975850 Lustheide 81 Fas 49 0 2204 07585 85 j i DIAA deegisch Gidi Emil mlogdelpran de X Germany memet wiwah cam Delphin Technica LogMessage Delphin echnology Table of contents LogMessage 1 Safety AdVICe iiis oxsxuxexss vu WEE EMI aU VENE E aXX EE E REEU VM UKERY AVE E ENMNEE SERRE ERERIU 2 2 Intr odu cti n oes M 3 Included in delivery eeeeeesseeeeeesesssee nennen nmn nnnm nnn 4 System requirements essssseeeeeesussseeen ea aaaa nmn 5 Symbols used in this documentation e enne 6 3 Getting Started iessos sus iban nus anu aaa aa FaxRR P REY AE dax E nV PAK RER CARE KPRREE MR EPUM FERE 7 Starting LogMessage eessssseeeeeessssseeen eaa aa amne aaa nnn 8 Installing programs eessssseeeeeeseessee ene nnann nmn nnn 9 PC connection eeeseussseseeeaaaunnnneneaa uuum u uuu u uuu ann 10 Basic settings eesssseeeeeeeseaanene nea a nnum uana annua nnn nn 13 4 LogMessage device and connections eene 14 Device types oussso seio nas snae ounuusss su KAR NARANARRTAN ARARA RANENMARARARAAANAANKARARAA 15 Power supply eeeese
69. LogMessage 192 168 251 239 P Online Device Na fey LogMessage aeolus local 192 168 251 239 Yes Online amp System Monitor Channelgroup gy 1 0 Module 2 ADIT Modul Ok Module No l Interfaces Interfaces Mp Memory 14611 MB Dk Memory Na p Software channels CPU Module E s pl Configuration Events Displaying measurement data Once a connection has been established refer to the previous section current measure ment data can then be displayed Double click on an I O module to displays its channels The Value column continuously updates with new measurement data Displaying scaled measurement data To convert data from the sensor into the required measurement unit requires configuration of the channel Right click a channel to display the Properties dialog A general explanation of dialogs is available under settings for all dialogs section Special settings for different channel types analog input analog output can be found in subsections of the configuring module channels section The dialog also displays connection diagrams refer to I O module connections Other settings Setting digital I O Scaling can also be made for counter inputs Set which signal channel requires out put of a constant level Settings for data reduction A D measurement duration etc A number of options are available other than basic scaling e g duration of an A D conversion the chang
70. Message Delphin chnoloay 3 1 Starting LogMessage Just a few steps are required to start using the LogMessage device e Unpack the device e Plug the three pinned grey plug from the supplied AC adapter into the socket marked Power on the device Refer also to Display devices and connections The plug is polarity protected can be inserted into the socket in only one way e Plug the supplied three pinned grey connector for the external bus terminal in the socket marked Ext BUS The terminal possesses a resistor that is necessary for the proper functioning of the bus system The resistor is required even when a bus cable is not connected e Connect the power adapter into the mains socket The next steps are e Installing programs e PC connection e Basic settings LogMessage 8 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay 3 2 Installing programs Administrator rights are required to install the programs Install the CD ProfiSignal Go Please ensure that the DataService Configurator is installed as a Program and not as a Service Following installation these two desktop icons should appear E A DataService ProfiSignal Configurator The DataService Configurator from Delphin functions as a link between the PC and mea surement hardware Delphin hardware is configured using DataService Configurator LogMessage devices are immediately configured in the DataService Confi
71. S 3 o a u 3 ia 1 A o i hl pem me m M e s icm IC Ic 65 ff IC64 m IC 3 IC62 IC5S N Em Emm Emm E Emm Emm E R s R68 R67 R66 eee R R59 R58 C122 ci21p104 112094 H troeit c34p7 4 95 m ms C86 c76ns4 7 cezR44 55 csapa immrzzzzmmzEzzzrr SOD ESS Smee eees C22 9 D n Eun Enn Eun Ei Eja Zinn Enn E Ic48 4 1046 uj IC44 i5 1C42 ICc48 Ic38 IC36 IC34 Ic Nn oo e Bonn Boon Bonn ES Enon Sin Bsn gS BEEE SESE eEee ees BQZZZZZZZZZZZZZZE R112P111 R102R101 F92 R91 R82 R81 R72 R71 R62 R i1 R52 R51 R38 R34 C129C128 C120 C119 C111 C4110 C102 C101 c93 C92 C84 C83 C75 C74 C65 C66 Made in Germany WL 2011 10 Two switches require activating Analog input 1 is located on the right OFF up AC coupling ON down DC coupling AC coupling is based on 0 1 uF 50 V serial capacitors these provide a high pass cut off frequency of 4 Hz 191 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Del phin Technology 9 3 5 2 External cicuits The following includes examples of external cicuits External divider for analog inputs and measurement range 25 V or 20 V An extended measurement range of 25 V or 20 V can be achieved with a symmetrical ex ternal resistor divider The recommended wiring appears as follows 1 0 module AMDT 1 O module AMDT The resistor accuracy class should be depending on requirements 0 1 to 1 Input im pedance reduces here
72. TN sz ieuueuo wwo De bZ bz jouueyo Q pz jauueYD i Q z jeuueyD bis 8 ez euueuy 1 N Zz jeuueyo 8 OZ 4 jeuueYy amp 0z jauueyo t X 6 jeuueyD m Q 84 jauueyo 4 jauueyo N 9L Jeuueu Q 9 jouueyD 89 gj jeuueyo uM 2 y leuueuo E jauueyo ZL 6 jeuueYD ZL jauueyo prewe e Ha OQ jeuueyo N 6 jauueUD nam 8 G jeuueu z 8 jauueyo o pmo ua He e 9 jeuueu I N g jauueyo p jauuey9 o p jeuueyo jouueyd one o Z jeuueyo N jauueyg 26 LogMessage July 2012 2010 2012 Delphin Technology AG LogMessage LN Siphin OTPT BBBRBRSSBRRRSRRRRSERRRRASBRSE 8855583 pj9e oj o o O OjJOJjJO O OjJO OjJOJ OJOJOJOJOIJ OJOJO O o Oj OoljO Oo Bs Bs Bs 8f Bs Bs z 88 i 28 E 28 8S8 8 x p OF Whe we Fe ee FF Pea E 3 o ox E 3 a x cw Ww p3 3 able elr alopesi neris 27 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology 4 7 I O module installation and removal Electronic components are sensitive to ESD Electro Static Discharge Therefore discharge any electrostatic energy before opening the device to install an I O module or memo ry card We recommend wearing a wrist band static discharge wrist band and to carry out the work on a con ductive surface Removal 1 Disconnec
73. The tables can have two different applications e Global application for multiple channels external table Global tables can be used for multi channel data not assigned to a specific channel They are valid only after Global settings have been made for Table type in the Main set tings tab for this channel s software channel setpoints or linearization A global linearization table is created using the Global linearization table context menu of the device Local The validity of a local setpoint or linearization table is limited to the channel in which it is configured From the Main settings tab select the Local for the software channel setpoint or linea rization Table type Create the table in the Table tab that then appears LogMessage 70 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology 5 6 2 1 Global linearisation tables An external linearization table that can be used as a global table for multiple channels is created via the Global linearisation tables context menu of device Refer also to Lineariza tion Global linearisation table General External Linearization able Table name External LinearisationT al Mode Offset and Gradient 2 calibrationpoints xX Calibration points Real value Measured value Import 1 0 2 3 p Export 2 100 i Linearization table created using the device s context me
74. This Software channel adds together all values from the specified source channel Adder adder new value Reset When enabled the calculated sum is output only in a reset event and then reset in ternally to zero When not enabled the sum is output for each each new value from the source channel Refer also to Trigger options Generate intermediate values When enabled results are also output without resetting to ze ro between reset events immediately after their calculation 5 8 3 Operating hours counter This software channel acquires the time the source has an active level When the level be comes inactive the time period is added to the cumulative time period High level Low level Sets the active level of the source Info e9 The operating hours counter retains its value even when the scale is amen ded Enable Reset and configure a channel and the trigger Edge Level to reset the hour coun ter Refer also to Trigger options If the source has an active level when the reset signal occurs the operating hours counter is reset to zero only after the source becomes inactive again 5 8 4 Differentiator This Software channel calculates the relationship of the difference between two values from the source channel to the difference between their time stamps based on the time base Differential A Value A timestamp time base Refer also to the Advanced settings tab Time base Enter the time bas
75. a wrist band static discharge wrist band and to carry out the work on a conductive surface A lithium coin cell battery CR2450 with 3V 575 mAh is used The battery has a lifespan of at least 10 years Removal 1 Disconnect the unit from the mains voltage supply 2 Remove all connectors from the device front Leave the cables that are attached to the terminals of the terminal blocks 3 Unscrew the four locking screws at the ends of the two terminal blocks until a dis tinct cracking sound is heard The screws have retaining rings to prevent their complete removal 4 Pull the two terminal blocks towards the front If necessary prise off using a flat screwdriver between the side of the terminal block and housing LogMessage 36 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology 5 Use a screwdriver to lightly press the two retaining lugs at the housing sides and le ver towards the front 6 Remove the battery from its holder using long nose pliers or a similar tool Installation Follow the above procedures in reverse order but taking the following into account e When inserting the new battery ensure that the negative pole is towards the board and the plus pole to the holding bracket 37 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology e Check that all connector pins fit into the sockets of the inner board and that the boards are in paral
76. able Connection Indicate here how the sensor has been connected the diagram displays the selected wi ring 2 Wire The sensor is connected with only two wires This is recommended only for very short lines and high impedance sensors otherwise the resulting voltage drop on the line feeds can lead to measurement errors 3 Wire The sensor is connected with three wires Since loss occurs only on one line a measurement error is only half as large as in two wire connections 4 Wire The recommended connection method for low impedance sensors and or longer supply lines The loss of feed lines does not matter because the device has a high ohm in put resistance no voltage drop on the line feed and the voltage drop the unit of measu rement can be measured directly at the sensor LogMessage 82 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chholoay 5 6 5 3 Current sensor type Main settings Advanced settings Additional settings Measuring time Sensor correction Sensor type Mode Connection Current hd bipolar Measuring range Shunt 2500 00 m 1 Ohm Scaling Scale value 2 Min 2000 00 m Max 2000 00 m 3 Mode unipolar Measuring positive currents only bipolar Measuring positive and or negative currents Measuring range Select a measuring range that is equal to or greater than the current at the load resistor to prevent A D converter overload
77. able in the status monitoring table 5 6 5 2 Resistor sensor type Main settings Advanced settings Additional settings Measuring time Sensor correction Sensor type Connection Resistor Measuring range 5000 00 Ohm M Scaling Measuring value Scale value Min 0 00 Ohm 0 00 Ohm Max 4000 00 Ohm 270 00 Ohm 3 10 D 2 Wire 3 Wire 4 Wire The example means 0 degrees corresponds to 0 ohms 4000 ohms corresponds to 270 de grees Measuring range Select a measuring range that is equal to or greater than the resistance from the sensor to prevent A D converter overload The channel receives the status measurement range overrun underrun for measurements not within the range Channel status values are available in the status monitoring table 81 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology Scaling Enter two points from the sensor s characteristic curve if possible the lower and upper vertexes For a linear characteristic measured values are then converted into the unit of measurement scaling from the sensor For non linear characteristics use Sensor correcti on The specified range in the example O to 270 bar is used as the default for the display area for graphics in ProfiSignal The channel receives the status scale range overrun or scale range underrun when not within the range Channel status values are available in the status monitoring t
78. age Delphin chnology 8 2 2 I O modules DIOT IOIT and OTPT v Digital inputs for level detection Number of inputs DIOT 12 including 11 for frequency measure ment pulse counting IOIT 24 OTPT 1 High level 3 5 90 V 2 mA typ 2 7 mA at 5 V Refresh rate 1 kHz 1 ms evaluated v Digital inputs for frequency measurement pulse counting Measurement error 1 kHz 1 Hz 1 10 kHz 5 Hz gt 10 30 kHz 10 Hz Counter width 16 bit Potential isolation 2 5 kV 173 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology v Digital outputs Number of outputs DIOT 16 IOIT 1 OTPT 24 Potential isolation 2 5 kV LogMessage 174 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin 8 2 3 I O module ADFT v Analog inputs chnology Voltage measuring ranges 156 mV to 10 V Current range 20 mA 0 20 mA and 4 20 mA Current measurement requires a load resistan ce of 10 500 Q Measurement frequency range 3 0 4000 Hz dB Sampling rate 10 10000 Hz in 10 stages individually ad justable for each channel Channels with the same sampling rate can be sampled simultaneously Sampling rate 10 8500 measurements s 10 10 000 measurements s using only the analog inputs 1 4 AC DC coupling DC coupling preset switching via DIP switch on the device Input impedance 0 8 MO Measurement error DC
79. ain amplitude Frequency of the main amplitude within spec Main amplitude Main amplitude within spectrum Rotation speed Frequency Rotational speed Amplitude of the speed synchronous vibration component Phase of the speed synchronous vibration com ponent Amplitude of 1X component i i Amplitude of the double speed synchronous vi bration component Phase of 1X component T Amplitude of 2X component Phase of 2X component T Phase of the double speed synchronous vibrati on component Maximum of vector sum T Maximum of vector sum of two signals at an order of 90 Mean of product T Mean of product of two signals F F F F Frequency of main amplitude F Frequency of main amplitude for preset fre band 1 quency band 1 Main amplitude band 1 F Main amplitude for preset frequency band 1 RMS value band 1 F RMS value for preset frequency band 1 F F F F F F RMS value band 2 RMS value for preset frequency band 2 Frequency of main amplitude in preset frequen cy band 3 Main amplitude for preset frequency band 3 RMS value for preset frequency band 3 Frequency of main amplitude Frequency of main amplitude in preset frequen band 2 cy band 2 Main amplitude band 2 Main amplitude for preset frequency band 2 Frequency of main amplitude band 3 Main amplitude band 3 RMS value band 3 1 2 3 5 7 10 11 12 13 14 15 16 17 18 19 20 21 22 LogMessage 210 July 2012 2010 2012 Delphin Technology AG
80. ally in Hz More information is available in measuring frequency or speed LogMessage 240 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology Speed measurement Source Sets one of the digital or analog inputs as source for measuring speed to which the FFT analysis is assigned Key word Rotation speed stamp to frequency spectrum and order analysis Set to digital input 1 or 2 when the frequency measurement is taking place via one of these inputs Redundancy mode Two speed pulse sensors and two digital inputs can be operated creating the possibility of redundancy Refer here to redundant trigger source 9 5 1 2 I O module measurement block counter Measurement data undergoes evaluation and transmission depending on I O module settings and trigger events The DataService Configurator displays a counter for the number of recorded measurement data blocks as status information for the I O module AMDT app 0 Modul 1 AMDT Module AMDT 428 Blacks m 3E gt Analog Input 1 45 17 mV ge 32 gt Analog Input 2 41 75 mV i a Analan innuit 3 24 18 mV 9 5 1 3 Configuration settings for analog input Refer also to the technical specifications for analog inputs Active Activating this channel transmits the time signal as a measurement data block following each triggering Non required channels should be deactivated Info e3 The Time signal tab of the I O module includes more settings with affects to all a
81. aracteristic Maximum of vector SUM ssseeessssseeeeeeeees 219 Characteristic Mean of product 220 Characteristic Frequency of main amplitude band DEP 221 Characteristic Main amplitude band 1 2 3 221 Characteristic RMS value band 1 2 3 sese 223 Characteristic Sum value uusssessseessssse nnn 225 Characteristic Remainder value sassssssssnnrrrnnrrrnnrrrnnrrnnnna 225 Measuring frequency or speed sssssssseeeeeen mnes 227 Measuring the phase angle ssseeeenen mmn 229 Monitoring ssicxesuu E EEXRRRRRRREEREYERRARA YR RR RERMERRE ER RE RR RP EN ERR D er EE RUE 231 Configuration and operation eeeeeeseeese enne nnnm nnn 232 Configuration using the DataService Configurator eessessss 232 Configuration settings for I O module ssseeessse 235 I O module measurement block counter suese 241 Configuration settings for analog input sseseseeesss 241 Configuration settings for FFT spectrum eeeeeeeee 246 Configuration settings for characteristics sssessess 247 Configuration settings for analog OUtPUL cc cece sees eee eens 249 Configuration settings for digital input c cece ee eeeee eee eee 250 Configuration settings for COUNTELS ccceeeeeeeee eee eee eeee
82. arted 7 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology Network settings 10 44 58 Ni Xxx 85 I NTP 46 58 I O module replacement 28 I O modules Terminal assignment 23 Identify an unknown IP address 43 Included in delivery 4 Inherit status 104 Install programs 9 Integrator 121 Internal battery replacement 36 IP address 44 58 ISO 9001 certificate 260 Keys 14 Lamps 17 LAN LEDs 17 LED lamps 17 LEDs 18 Level trigger 102 Limit value 109 Linearization 121 Linearization tables 70 Load configuration 48 Load resistor 84 Logic 123 mm M mm Markers 126 Measurement range monitoring 79 Memory 60 Memory card installation and upgrade 32 Module information 76 Module layout 23 Module number 76 Module replacement 28 Module settings 76 Network 44 58 LogMessage July 2012 262 NTP status 47 O Operating hours counter Persistence 105 Potential differences Power input 16 Power Supply 16 Power supply 16 Pt xxx 85 Pulse generator 111 Pulse width modulation PWM 127 PWM 127 Q Quick Start 7 Reboot 54 Reboot device 54 Replacement Battery 36 I O module 28 Memory card 32 Reset 14 Reset button 54 Resistance sensor type 81 Resistance thermometer sensor type 85 Restart main application 53 Safety Advice 2 Save configuration 48 Set point tables 70 Setpoint software channel 132 Setting network address 10 Settings for all dialogs
83. arted by the trigger channel blue curve with a 2 second pulse duration green curve of and a 6 second cycle time black curve After three pulses the pulse duration is increased to 3 seconds green curve After another two pulses the cycle time black curve is reduced to 5 seconds Just before 9 13 00 a reset takes place at the rising edge of the reset channel Because the trig ger source has a High level the pulse duration re starts even though a pulse had al ready begun LogMessage 116 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology v Example 3 The following examples illustrates the relationship between trigger signal and reset si gnal a Trigger and reset are triggered by channels and are set to Edge both Then both the signal s rising and falling edges trigger the event Impulse 04 Res 01 Trig 09 49 00 09 49 20 09 49 40 04 03 2011 The trigger blue curve starts the pulse generator red Curve with a rising edge Then the reset purple curve is triggered with a rising edge triggered and the pulse generator stopped Pulses are generated again only after the trigger emits a new start signal with a falling edge A falling edge from the reset channel re stops the pulse ge nerator Pulses re start only with a rising edge from the trigger channel 117 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology b The
84. asuring range 270 C 2320 C depen ding on thermocouple LogMessage 170 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology Resistance probe thermometer Pt50 to Pt5000 Ni50 to Ni5000 YSI400 2 wire 3 wire and 4 wire 1 mA reference current Measuring range 270 C 8509 C Self calibration DC offset cyclical frequency adjustable Digital filter Low pass 6 1000 Hz The cut off frequency is automatically adjusted to the sampling rate Potential isolation of main device 750 V DC Dielectric withstand voltage of the 110V channel Permissible differential voltages ADGT V2 0 400 V ye from channel to channel ADGT V3 0 650 V pe AAST ADIT and ADVT 110 V v Analog outputs Number of outputs Output signal 0 4 20 mA maximum load resistance 650 Q Potential isolation 750 V from channel to channel and main device 171 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin echnology v Digital inputs for level detection Number of inputs AAST 2 High level 3 5 90 V 2 mA typ 2 7 mA at 5 V Low level 0 1 5V 0 1 5 mA Refresh rate 1 kHz 1 ms Minimum pulse width that can be 1 ms evaluated Potential isolation 2 5 kV Reverse polarity protection 1 kV v Digital outputs Number of outputs Inverse diode Integrated Potential isolation 2 5 kV LogMessage 172 July 2012 2010 2012 Delphin Technology AG LogMess
85. ating firmware improved Slightly faster needs less memory First implementation of Modbus TCP Client and Server Serial ports COM1 and COM2 in UART mode and COM3 now working Configurator V3 1 5 2 5 3 Restart main application Clicking Restart main application restarts the main program This is faster than fully reboo ting the device During the restart data is neither acquired nor stored The network connection to the 9o PM gt device is interrupted and the re established following the restart 53 2010 2012 Delphin Technology AG LogMessage July 2012 LogMessage Delphin Technology Info e3 A start can be performed only via the web interface The process is displayed in a window Application is restarting now Shutting down FRoG OK Shutting down PoND OK Starting PoND OK Starting FRoG OK Done The process ends when the Done message is displayed 5 2 5 4 Device restart reboot Restarts the device The process takes approximately 2 minutes Then click Back The LEDs on the device indicate when the device is ready refer to General LED The action is equivalent to pressing the countersunk reset button on the front of the de vice or switching it off and then on again LogMessage 54 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay 5 3 Configuring a LogMessage device The Channels tab s top level DataService Configurator is t
86. ave identical device IDs and the DataService would not be able to distinguish bet ween them LogMessage 56 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay Method 1 Save the required configuration using the web interface Refer to Saving a configura tion 2 Use the web interface to load the configuration to the new device Refer to Loading a configuration 3 Open the Device configuration dialog 4 Enable User defined device ID 5 Enter a new ID e g the device s old serial number The device ID is in hexadecimal format Valid input includes numbers from 0 to 9 and letters from a f or A F no distinction is made between upper case and lower case letters A zero may not be entered as the first character A valid input changes the input field s background color to bright green It remains red background as long as the input is invalid or incomplete After amending the device ID the connection to the device is briefly interrupted before being restored again Refer also to Settings for all dialogs 57 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology 5 3 2 Network settings NTP Open the Main settings dialogue via the device s context menu Main settings Imm IP settings Hostname LogMessage Domain aeolus local IP address 192 168 251 239 DNS server 1 192 168 248 20 Net mask 255 255 240 0 DNS server 2 192 168 248 21 Gateway
87. ble in Settings for all dialogs and General settings for Software channels 101 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay 5 8 1 General settings for Software channels The following sections explain some of the settings that are available in many of the confi guration dialogs e Channelgroups e Edge and level triggers e Basic channel selection and Advanced channel selection e Inherited status e Advanced settings tab Refer also to Tables 5 8 1 1 Channelgroups Use channel groups to group related or interdependent channels Any number of channel groups may be created If required a channel can be linked to more than one group linked channels refer to Configuring Software channels 5 8 1 2 Edge and level triggers Many dialogs have input fields with options for different trigger functions according to edge or level states The following variations and combinations are available Edge and level o dee Edge full Edge basic Rising edge High level Rising edge Rising edge Falling edge Low Level Falling edge Falling edge Edge both Edge both High level Low Level Explanation of options Setting mueren o Rising edge The event is triggered when changing from Low to High Falling edge The event is triggered when changing from High to Low Edge both The event is triggered at every change High level The event is triggered when and for a
88. c system Linux 2 6 37 svni054 leap 00 stratum 3 precision 20 rootdelay 24 380 rootdispersion 64 124 peer 14466 refid 192 168 248 40 reftime dO0ebh981 9ad97a97 Thu Jan 27 2011 10 29 37 604 poli 10 clock dOebba3f 4da9if4b Thu Jan 27 2011 10 32 47 303 state 4 offset 1 481 frequency 8 444 jitter 0 102 noise 0 569 stability 0 022 5 2 3 Configuration This section describes how to e Save or Load device settings refer to Saving and loading configurations e Viewchannels to display the current channel Settings e Reset all settings except the network and settings to the factory settings using Default configuration Refer also to Resetting configurations 47 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology 5 2 3 1 View channels This window shows in tabular form configurations for all the channels from a device Each column contains detailed information such as channel name type of module physical unit measurement range or whether an invalid channel configuration exists etc The object ID in the penultimate column enables users to display the channel configuration as an XML file potentially important for support purposes The data can only be displayed Changing settings is not possible To change configurati ons use the DataService Configurator Refer to LogMessage device configuration LogMessage 2000 pmIS aeolus local Channel List R234 beta5 8125M
89. cally set via a ProfiSignal application Scaling Enter two points from the sensor s characteristic curve if possible the lower and upper vertexes Values from the source are then linearly converted into the output range For non linear characteristics use Sensor correction The specified range in the example O to 0 5 bar is used as the default for the display area for graphics in ProfiSignal The channel receives the status scale range overrun or scale range underrun when not within the range Channel status values are available in the status monitoring table The Output range defines the limits of the current or voltage output 5 6 9 Digital output The digital output corresponds to a switch that is either ON the two output terminals are connected the input is High or OFF no current flow between the two output terminals the input is Low An external voltage source may be necessary see wiring diagram in the dialog Be aware of the maximum permitted currents and voltages for the digital out put refer to the Technical specifications Main settings Advanced settings Value source Channel Reference Junction v P J Inherite state Connection Invert 22 22 24 r 3 1 eec 3 3 bod 1 Source Enter either a constant value Manual value or use Channel to select an existing channel whose value is then output Selecting Application enables the output value to be manually set via the Da
90. correction Mode There is a choice of modes Offset An offset shifts the curve by a fixed value i e the given value is added to the measurement value Offset and gradient Allows a shifting of the curve and an increase in its gradient The example above picture shows the values for a temperature measurement with calibration at 0 C and 100 C e Square Generates a quadratic curve through the given points to linearize the measured values 69 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology e Linear interpolation Enter a table for the conversion of measured values into display values Linear interpolation takes place between the given points e Spline interpolation An optimal fitting polynomial 3rd degree cubic spline is determined using spline interpolation for the given values which is then used to to convert the measured values Info You can use copy and paste to transfer data from an Excel table into the dialog s table Position the cursor in the table s top left field Extra rows are created automatically when this is permitted by the selected mode Click on a row and use the De key to delete unwanted rows Insert ex tra rows in a linear interpolation using the Return key A created table can be exported and then re imported later Export and Import 5 6 2 Tables Set point tables can be created in the device for software and channel linearization tables
91. d one signal behind it The maximum possible value of the offset is derived from the bit length of the data type and is displayed to the right of the numeric field Input is restricted to the valid values and the default is O e Bit offset This field is available only for the bit data type and binary encoding The payload bit in this data type can be between the 0 and seventh bytes The byte offset is also available for this data type Input is restricted to the valid values and the default is O v CAN ID e Extended ID To set whether the CAN message uses 11 bit or 29 bit for the identifier The set ting in this dialog is available only when Extended ID has been selected in the CAN controller dialog e ID Enter a hexadecimal value for an ID either with 11 bit hex value of between 1 and 7FF or 29 bit between 1 and 1FFFFFFF Input is restricted to the valid va lues The entry directly sets the identifier for CAN message to be received or sent see Use channel as output when 7FF or 1FFFFFFF is selected for Mask LogMessage 98 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology e Mask The filter provides the option to set the CAN bus channel to a whole group of IDs The range of input depends on the setting in Extended ID The Mask value is linked with the configured and received ID bit by bit AND The CAN message will be evaluated when the configured and received ID have the same value oth
92. d with the ey symbol When a number has been allocated the module symbol is displayed next to the number Module settings for I O modules DIOT and ADFT only These modules have the option to use the counter inputs either as pulse counters or fre quency measurements For frequency measurements set the period over which incoming pulses are totalled to enable the frequency to be determined Low frequencies require a correspondingly longer time to acquire multiple vibrations but measurement is then slow for long time periods For short times measurement is dynamic but less vibrations are detected and measurement data fluctuates strongly Make sure the gate time is small enough at hig her frequencies because the maximum number of impulses is 65535 Module settings Pulse count Frequency measurement Gatetime 1000 ms Deleting module entries Modules can also be displayed that are currently inactive but had been previously connec ted or configured As long as they have not been deleted they are appear with the sym bols or before the module symbol The configuration is retained and reloaded as soon as the module is reconnected E ProfiMessage PmzZetkin aeolus local PoND 233 rc5 7 0 31010200 Q amp D53042 Online Time of ge 1 0 Module 4 AMDT Module AMDT 209 Blocks 0431010200 16B6BA36 Ok d amp 1 0 Module 2 IDIT Madule IDIT 031010210 7B265D04 Hardware failure 4g 1 0 Module 2 ADYT Module ADVT 0x310
93. displayed in italics are the dialog headings buttons check bo xes input field names etc Display status This should help you to find the relevant fields and buttons or menus within the correspon ding software Symbols on the device CE symbol The CE symbol guarantees that our products meet the requirements of relevant EU directives Refer also to the EC Declaration of Conformity section LogMessage 6 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology 3 Getting started This section explains e The important device connections to commence work e The software that needs to be installed on your PC e How to establish a connection between a PC and the device e The settings required to acquire measurement signals from the device For detailed information refer to these sections The section Display devices and connections gives an overview of all the interfaces connections ports and LEDs The section Configuration and operation explains the different options for setting up the device for measurement tasks The section on Examples of connections shows the options for connecting standard sensors and actuators and how to configure them The section on Measurement technology contains general information and recommen dations on using measurement technology Technical data is available in the Technical specifications section 7 LogMessage 2010 2012 Delphin Technology AG July 2012 Log
94. dware Optical coupler CAN interface Analog Input 1 8 Analog Output 1 2 Gain Anil AID ux alias amplifier filter Converter DSP Digital Signal Optical Schmitt Processor Optical coupler trigger coupler Driver Counter Digital Output 1 4 Digital Input 1 4 Signal memory Program Data storage memory SRAM Flash EPROM Block circuit diagram for an analog input signal SW anti alias filter Progr gain HW anti alias filter A D converter High pass filter low pass filter Integrator V 1 64 8 kHz 4th Ord fs1 20480 Hz 8th 4th Ord Ath 8th Ord x 1000 Decimation fs2 256 20480 Hz Time signal Frequency spectrum Characteristics e g True RMS value LogMessage 186 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology 9 3 4 Technical specifications Specifications may change as part of ongoing technical developments 9 3 4 1 Galvanic isolation The complete analog set up analog inputs 1 8 and analog outputs 1 2 is galvanically isolated to the rest of the system Each digital input output is galvanically isolated to the rest of the system The CAN Bus interface Ext BUS communication with base device or main CPU is likewise galvanically isolated 9 3 4 2 Analog inputs Properties 8 Analog inputs 14 bit resolution Differential inputs 0 8 MO impedance A potential difference totalling 100V is permitted between the differential
95. e 237 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay Sample rate Sets the sampling frequency in the 256 Hz to 20480 Hz range The setting is applied to all selected analog inputs The Operating mode affects the options that are available he re Number of samples The number of samples i e measurement values in the 128 to 8192 range for a time signal The setting is applied to all selected analog inputs The Operating mode affects the options that are available here Recording time Information about the time signal It is determined from the sampling frequency and number of samples and then displayed here Frequency range number of lines frequency resolution Information about the frequency spectrum It is determined from the sampling frequen cy and number of samples and then displayed here v Time signal tab Main settings Advanced settings Mode Trigger Recording Time sional FFT Spectrum Speed meas Compression Method none v 1 1 Polarity Symmetry Positive Negative Compression Time signals can be compressed prior to transmission This can reduce transmission speed and increase storage capacity in the data logger memory Select the required Method e None The time signal is transmitted without compression e Log compression u Law Amplitude values undergo logarithmic compression the compression fact equals 2 1 Amplitude error following decompressi
96. e 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay v Use channel as output CAN bus channels are configured by default as input channels i e they receive data via the CAN bus This option enables the device to send data to other CAN bus users Enter either a constant Manual value or select an existing channel from Channel whose value can be output Selecting Application enables the output value to be manually set via the DataService Configuratoror automatically set via a ProfiSignal application The source value is converted to the type given in Data type Inherite status for Channel settings only The status of the input channel is used but not output to the CAN Bus LogMessage 100 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay 5 8 Configuring Software channels Refer also to Settings for all dialogs Software channels are calculations or functions that are performed within the device In previous device families from Delphin such channels were also called virtual channels Any number of channels can be created This is a standard feature of the device Display the Software channels context menu DataServiceChannels tab You can then either create a Channel group e g Analog channels in the example to group together created chan nels or select one of the available channel operations The context menu contains all available calculations and functions Dea
97. e arithmetical average cha racteristic value LogMessage 242 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology Apply window function Select this option to calm measurement data for a static vibration A weighting is then applied prior to the arithmetic average being calculated The signal s periphery is weighted lower and its middle higher Rectification Activates signal rectification Takes place following recording and prior to evaluation Advanced settings tab Main settings Advanced settings Additional settings Filter settings Sensor correction Default value D Hz Force default value simulation Formatting 2 v Fractional digits Default value The value set here is transmitted as a measurement value when a normal measurement value is missing Formatting The required number of decimal places for the measurement value is set e g for dis play in the DataService Configurator 243 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology Additional settings tab Main settings Advanced settings Additional settings Filter settings Sensor correction Monitoring 7 Measuring range check Wire breakage monitoring 100 00 as 1100 00 Characteristic Qi Maximum value Mean value Anti alias filter Sw Automatic 5 No Compression No compression for ti
98. e specified number of repetitions Once the repetitions have been completed a new or active start event then sets the programmer to the beginning and restarts the program sequence Break Pauses the programs execution i e the current setpoint is retained for as long as the specified channel has the set Level The break pause channel has a higher priority than the start channel i e the start channel does not start the programmer while pause state is active For Edge settings the setpoint is retained from the arrival of the edge until the next edge An event here is also unable to give priority to a start channel over a pause status Reset A reset event from the specified channel sets the program to the beginning but does not start it The reset channel has the highest priority i e the reset condition pre vents starting by a start event and can override up a pause status Refer also to Trigger options LogMessage 132 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay Table tab The setpoint table creates a conditional procedure whose points are set by value pairs ma de up froma period and a value Each row of the table describes a program step for time t fixed or variable and value y fixed or variable Based on the previous value of y thet value indicates how long will it take to achieve the y value The first line defines the star ting point of the procedure so at least two pairs of val
99. e the output si gnal of the limit channel is High when the specified alarm conditions are true The following forms of monitoring are available Overrun the value is above the specified range or above the limit threshold the value is below the specified range or below the limit threshold the value is outside the specified range threshold bandwidth the value is within the specified range threshold bandwidth Steady condition values change by more than the bandwidth during hold up times In addition no triggering for wire breaks at the source can also be entered The setting is only for sources sensors which can have wire break monitoring For all input either enter a fixed value Manual value or specify a channel that delivers the value It is possible to change the limit value during measurement Threshold is the decisive value in monitoring Hysteresis Hysteresis prevents the alarm being repeatedly activated for small fluctuations around the threshold value in the monitored signal Depending on switch direction the hys teresis lies below the threshold for overruns or above the threshold for underruns Refer to the images The hysteresis is especially beneficial for small noise signals The Delay op tion offers an alternative 109 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay Ex ess CoA Threshold Signal On Off Signal Threshold t
100. e Group Setting subgroups within the Memory enables a more efficient partitioning of the memory From the context menu select Create channel Memory groups Divide the available memory among these groups and use the Channel list tab to set how often the groups channels are to be saved Refer also to Settings for all dialogs Data transfer to USB memory stick v Memory group settings Main settings tab Channel settings Storagegroup Storage Group ProfiMessage SN41030570 j Se V Active Channelname Storage Groupi Unit Location Description Stores measured Data Main settings Advanced settings Storage mode Channellist USB export Storage settings Size MB 2 Iv Store time change 7 Store config change Use storage space for ring buffer End storage process when memory full E Erase trigger Rising edge Inherite state E Previous Next x Abort Help i Last change 06 04 2012 12 44 56 463 Use this tab to set the Size amount of memory that this group may use The memory either can written to until full End storage process when memory full or the group can be configured as a Ring buffer As a ring buffer the current value overwrites the oldest value when the memory is full An alternative to the ring buffer is the Erase trigger function Enter a digital channel as the trigger for the deletion A calculation channel can be used that monitors memory capacity
101. e I O modules are available in the hardware view below the Ext BUS DCP entry The user defined view lists all the I O modules directly below the device as long as the user has not already mo ved the modules or channels Double click an I O module or select Properties from the context menu to display the confi guration dialog Use the dialog to change the module name or set the module number bus address in the Main settings tab 7 Active Channelname Module DIOT Location Main settings Channel settings Module Module DIOT Description ProfiMessage 1 0 Module DIOT Module information Module number Module settings Pulse count Frequency measurement Type DIOT Version 1 10 CAN ID 001682 Gatetime 1000 ms Main settings tab Module information This area shows the module s type version and unique CAN ID LogMessage July 2012 Last change 22 09 2011 12 07 00 139 4 Previous Nest 76 X Cancel Help 2010 2012 Delphin Technology AG LogMessage Delphin chraloay Module number After loading the factory settings the modules have no number The number is important because a module can be active only when it has been assigned a unique number Modules are displayed in numerical order in the channel view Give each connected module a unique number between 1 and 99 Numbers that have alrea dy been allocated are marke
102. e channel e Manual value Output is set manually Inverted Activates logical inversion LogMessage 252 July 2012 2010 2012 Delphin Technology AG LogMessage 9 5 2 Visualization using ProfiSignal Delphin ProfiSignal is a complete system for applications for measurement data acquisition analysis and visualization It replaces former products e g VibroLab BasisPaket or Process visualisa tion The following images show examples of a diagram with some time signals and a diagram with a frequency spektrum Mel ProfiSignal Hal f File Search View Settings Window Help De aS Sa mem gog uu Settings Window MM pem iz En ED B cai B a channelfier show all hide all Color V Name Vaue Urit B v Signt Time 2308 63 mv my mV m my Wl Sign2 Time 1998 66 Wl v Sign3 Time 2823 45 Wl V Sign4 Time 1552 80 WE Sign5 Time 212428 11 880 sec 11 900 sec 11 920 sec 05 07 2012 09 47 s MI Es oe aca e o Qe o dk Re qr E TIS m Rem ar 9 amp pomme leni KOSS FFT dagen Y1 channel filter show all hide all SI a A G E eee asec Color Y Name Value S WE Analog Input 06 Fit 5999 94 Fe W Welle 1 FftSpectrum 999 79 B Welle 2 FitSpectrum 1999 88 Bl v Analog Input 05 Fit
103. e for the calculation The default is 1 ms Enable Trigger when the calculation is to be triggered by specific events The differential between successive trigger events is then calculated Refer also to Trigger options LogMessage 106 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin ch olcay 5 8 5 FlipFlop This software channel functions like a hardware flip flop Select the type of flip flop from Mode A diagram is displayed depending on the selection Various inputs are available Disable any unnecessary inputs Mode Pre C JK Flip Flop a Q RS Flip Flop Set Priority R D Flip Flop cir Latch The following tables show the possible states X any level t edge H High level L Low level Refer also to trigger options Y JK Flip Flop 107 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Cc Clr Pre clock cle pre ar set echnology v RS Flip Flop A bbLbEb e pe fete ep Pepe uM 7 L L X x L L Previous state In RS flip flop there is the additional option of Set priority i e the value at set input S has priority when R H v D Flip Flop C clock Cir a pem EE ES D pp6lLIc LogMessage 108 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology v Latch 3 fe LL o 5 8 6 Limit This Software channel monitors the specified source channel The result i
104. e last save Saving takes place after removal and reinsertion of the USB memory stick 4 Enter the USB memory stick s drive in the dialog s lower left corner 5 Click Save The configuration file is saved in XML format to the USB memory stick 6 Remove the USB memory stick When the USB stick is inserted into the device the configuration file is read and the corre sponding data transferred to the USB memory The data is only copied and not deleted from the device Saving ends when either e All data from the selected memory group s for the set time periods has been saved or e The date has been saved with a time stamp for the current time The transfer is complete when the USB stick s LED stops blinking A new saving process begins only by the removal and reinsertion of the stick 65 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Del 5 6 Configuring I O module channels phin Technology I O module channels refer to the channels of the of the I O modules The configuration for software channels interfaces and device memory is described in separate sections Refer also to the overview galvanic isolation specifications 5 6 1 Settings for all dialogs A configuration dialog opens after double clicking one of the channels e g from an I O mo dule an interface or an interface protocol Different tabs are displayed depending on the channel type The data in the tabs also depends on the channel
105. e required for a new measured value to be stored data reduc tion or how the channel is to be monitored Specific settings for a device Options are available for system monitoring e g CPU utilization or the available me mory and interface configurations Calculation channels subordinate channels ProfiSignal devices are capable of processing data before it is saved and output The corresponding settings are described in configuring software channels 13 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology 4 LogMessage device and connections Function keys LEDs COM interfaces USB Power imas e com j t NT Bess E Y HI EEE Terminal blocks Eth t e Mod 2 mem coms c erne TER CU S LogMessage Power supply Reset Function keys are not currently enabled Connections are described in the following sections Power supply e LEDs LAN USB e General LEDs e COM interfaces e I O module connections terminal blocks Also in this section e I O module installation and removal e Internal memory card installation and upgrade e Internal battery installation Refer also to Device restart reboot LogMessage 14 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin echnology 4 1 Device types Types 1000 2000 3000 4000 Analog inputs mV mA Thermo 15 15 couples Analog inputs mV mA Thermo ae Pt100 0 Analog output
106. easurements Scaling is then preset to Hz or degrees More setting options see section characteristics LogMessage 248 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay 9 5 1 6 Configuration settings for analog output Refer also to the technical specifications for analog outputs Output is always in the range O 10 V v Main settings tab E SES m SES PE ES 7 Main settings Advanced settings Extended settings Sensor conection Source Channel TestSign 1 v V Inherit state Scaling Connection Scale value Output value mV Output range Min 000 0 00 0 10 Max 10000 00 10000 00 Rating max 4 m Source Source selects from various signal sources e Application Output data is controlled via a ProfiSignal application e Channel Output data is controlled via a DataService channel e Manual value Output is set manually Scaling Defines the physical basis for the output unit of measurement In the example O 100 is assigned the output value O 10 V 249 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology 9 5 1 7 Configuration settings for digital input Refer also to the technical specifications for digital outputs v Main settings tab Low 0 1 5 VDC 70 1 5 m High 3 5 90 VDC 3 m Inversion Activates logical inversion LogMessage 250 July 2012 2010 2012
107. ed only when a cyclical digital pulse is connected to a digital input counter e g the square wave pulse of a rotating shaft This signal delivers a stable base frequency f as well as a phase reference or trigger signal Using the frequency spectrum for the line index f 2f 3f xf the DSP determines the amplitude of this line vibration component A f Measured main frequency Info Acquisition of an accurate fn via the frequency input is essential as is the highest possible resolution for the frequency spectrum In the event of de viations between the measured frequency and frequency spectrum s line in dex evaluation then takes place of the next line LogMessage 216 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay Only the free definable component Amplitude of xX component can be set in the range 0 100 x f See Below the corresponding configuration dialog Tab Main settings with the field Speed factor 10000 10000 10000 10000 Speed factor 4 s 9 4 5 9 Characteristic Phase of the 1X 2X 3X xX component Phase angle measurement is useful only for low frequencies rotations The computation procedure see below shows why Further information on phase angle definition and on measurement precision etc is available un der measuring the phase angle This characteristic value can be determined only when a cyclical digital pulse is connected to a d
108. eee ees 251 IV LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chraleay Configuration settings for digital OUtPUL eee ee eee ee ees 252 Visualization using ProfiSignal csse 253 FirmmWare update cede ir smte re E xod VEG Y Qro vx wie wb pans 254 Information on applications ueeeeeee essen enne nnnm nnn 256 Appendix to older AMDT hardware eese eene 257 10 Pp CE 259 EC declaration on conformity LogMessage nere 259 ISO 9001 certificate eeeeeiesseeeeeeeeeese eene n hann nana nnn 260 LogMessage V July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology LogMessage LogMessage devices are designed for use as modular measurement control and monitoring devices and are equipped with many settings and connection options They are also equip ped with a range of I O modules field bus interfaces and software channels to enable the performance of monitoring control and regulation tasks LogMessage devices have 16 GB internal memories and can function as stand alone independent units Acquired data can be transferred via interfaces in runtime mode via time controlled events or via the devi ce s USB ports Copyright 2003 2012 Delphin Technology AG All rights reserved This document s content especially text images and graphics
109. el industrial Notes E o o o o o o o o q a a a a a a a a o C x AN CN ON x se 4 WN ols v oubD oj r co o c l e e st lo to co o Za a hala E EAEN hel emm i as dins i oO ojojoj O O O O o o o o co co co oO oO oO co E S ejge e e se e c c c E E c c e leicjle s e c e te t s E E E c c c S Go al al a G G G cGc G G G G G G G G G G 2 2 2 2 e2 e e2 e2 e s E Es Es E XE ra Es d OjOjOjOJojJO O OJ O O o o o o o o o o o o 1 X m D D E D o o o o oe o z So S4 8 8 2 S8 Sg S9 S sa 9 60 Go a Sa So Eo So Fao Fa 5 S55 S85 8a 48 ZE ZE ZE ZE ZE ZE EE Ede Soo Da Ds Qot o ao 4444 HAHA t 1 1 1 1 1 1 1 1 1 1 1 1 1 8 9 Hone 13 1819 zo 22 23 24 25 26 27 28 29 30 31 32 Em N w m o D EUN Information on connections Refer to the technical specifications Analog inputs Voltage signals with range of max 10 V in a frequency range DC 8000 Hz can be connected Input impedance equals 0 8 MQ Current signals with range of 0 4 to 20 mA are processed using terminating resistors to be wired between the and connectors DC coupling is factory set Switching is possible using a DIP switch within the module The permitted total voltage difference between channels i
110. el has meanwhile gone to low 119 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology d The trigger is triggered by a channel and has been set to High level The reset is also triggered by a channel but has been set to Edge both Impulse 04 Res 01 Trig 10 46 00 10 46 10 10 46 20 10 46 30 10 46 40 04 03 2011 The pulse generator red curve is started by the trigger channel blue curve When a reset signal purple curve is received the pulse counter is set to ow but begins im mediately to generate new pulses because the trigger signal remains High and the re set signal is generated only by the edge The pulse generator stops only after the trig ger signal also goes to Low The falling edge of the reset signal has no influence here as no pulses are being generated at the time LogMessage 120 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology 5 8 8 Integrator This software channel calculates the area below a curve Source Integral gt previous value current value 2 A time stamp time base Cyclic New values are repeatedly obtained from the source for the Period input and the in tegral calculated between the current and previous values A new value is calculated for each interval and added to the running total Adaptive When the source delivers a new value the integral is calculated between thi
111. elphin chology e Note that the front fits only in one direction to the bottom part It may be necessary to rotate the module through 180 degrees e Do not fully tighten each screw one after the other Lightly tighten one screw then move to the next repeating the procedure until all screws are fully tightened 31 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology 4 8 Internal memory card installation and upgrade Electronic components are sensitive to ESD Electro Static Discharge Therefore discharge any electrostatic energy before opening the device to install a memory card We re commend wearing a wrist band static discharge wrist band and to carry out the work on a conductive surface Removing and replacing the memory card 1 Disconnect the unit from the mains voltage supply 2 Remove all plug in connectors from the device front Leave the cables that are atta ched to the terminals of the terminal blocks 3 Unscrew the four locking screws at the ends of the two terminal blocks until a dis tinct cracking sound is heard The screws have retaining rings to prevent their complete removal 4 Pull the two terminal blocks towards the front If necessary prise off using a flat screwdriver between the side of the terminal block and housing LogMessage 32 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology 5 Use a screwdriver to lightly press
112. ement or pulse counting operating modes e Frequency measurement gate time within the 250 5000 ms range Operating mode Settings are made jointly for both counter channels for operating mode frequency measu rement mode or pulse counting and gate time Frequency measurement The appropriate measuring process is automatically selected The interval of registered pul ses are measured in the 0 2 to 100 Hz or 12 6000 rev min range In the gt 100 Hz to 30 kHz range the number of pulses are measured per gate time 227 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin echnology A gate time setting of 1000 ms is recommended The table shows the values for 1 pulse ro tation a gate time of 1000 ms and a sampling frequency of 1000 Hz Frequency Rotation Pulse inter Evaluated periods in Hz in rev min val The following applies to the gt 100 to 30 kHz range Lower gate times enable faster measu rement data updates Higher gate times provide higher resolution measurement precision LogMessage 228 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology 9 4 7 Measuring the phase angle Phase angle measurement is useable only for machinery with low frequen cy speed The evaluation procedure shows why Refer also to characteri stics phase for the main amplitude or phase for the 1X 2X 3X xX compo nent Defining the phase angle The phase angle definition cor
113. en Measuring range The maximum possible sensor measuring range is pre selected The channel receives the status measurement range overrun underrun for measurements not within the range Channel status values are available in the status monitoring table Temp Format Select the unit of measurement in which the temperature is to be displayed Conversion is performed automatically within the device C Degrees Celsius K Kelvin F Degrees Fahrenheit R Rankine R Degrees R aumur 87 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chraleay Scaling Enter the range for valid sensor signals The specified range in the example 270 C to 1372 C is used as the default for the display area for graphics in ProfiSignal The channel receives the status scale range overrun or scale range underrun when not wi thin the range Channel status values are available in the status monitoring table Info e3 Enter the compensation to be used in the Extended settings tab refer to Set tings for all dialogs 5 6 5 7 Ph probe sensor type Sensor type Connection pH x Temp compensation Measuring range 625 00 mV z Scaling Measuring value Scale value 2 Min 414 12 my 14 00 pH Max 41412 my 0 00 pH This sensor type determines the pH value from the voltage of the pH probe in mV and the temperature in C of the reference junction via the Ner
114. entials Depending on the input circuit of the various I O modules of a device the difference voltage U Difference between certain channels may not exceed specified maximum values These are the Permissible dif ferential voltages from channel to channel specified in the Technical specifications Connector terminals on I O modules carry electrical potential from the attached sensors actuators Before coming into contact with the connectors ensure the power is off There should be no voltage at the connector terminals when the attached sensors ha ve varying potentials or earthed high potentials e g when measuring the elec trical current of a mains voltage phase Differences in electrical potential between two channels of a module can not be determined from the Measurement data LogMessage 164 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay Info If the connected sensors have different potentials and high currents are expected in the event of a short circuit between the sensor potentials ta ke measures to protect the device and the measurement installation from subsequent damage 165 LogMessage 2010 2012 Delphin Technology AG July 2012 Log Message Delphin chology 8 Technical specifications e Main device e AAST ADGT ADIT and ADVT e ADFT e DIOT IOIT and OTPT LogMessage 166 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin echno
115. er wise it will be ignored An identifier group is established when the bits that are to be ignored during evaluation are set to 0 Enter 7FF or 1FFFFFFF when a Mask is not to be used Example of mask settings ID 0x027 100111 binary Mask 0x24 100100 binary numbers with Ox are in he xadecimal format bit by bit AND operation results in 100100 in binary The first four digits of the link and ID are identical last two digits only are 0 and 1 CAN messages are then received with IDs that begin with 1001 binary and end with either two zero es or two ones i e all messages with the binary IDs 100100 100101 100 110 and 100111 v Scaling If CAN users send values that require conversion enable Scaling and enter Min Max va lues to convert from the nput value into the Scale value If the Use channel as output option is used scaling takes place in the opposite directi on Enter the range fromthe source data in Scale value and the range for the output signal in Output value Info Without scaling the channel s data type is that entered under Data ty pe When scaling is enabled the floating data type is always used for the channel This also applies when the channel is used as an output When scaling is enabled the channel must have the floating data type otherwise the type under Data type is used Scaling example In the above image a conversion from 4800 pulses to 300 km h is performed 99 LogMessag
116. er than those to its own trade marks and brands LogMessage 178 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology 9 1 Safety advice Use only the power supply connector delivered or a power supply with protective insulati on to power the LogMessage device Sensors signals without potential isolation and which have a high voltage po tential e g current measurement in the phase instead of neutral conductor of the mains voltage produce voltage also at the device s connectors In such cases check for voltage at the connectors before coming into contact with them The device s I O modules are potentially isolated to each other and to other components within the device Potential differences greater that 750V can the refore not occur potential difference cannot be detected from measurement da ta Replacing exchanging I O modules Electronic components are sensitive to ESD Electro Static Discharge Therefore dischar ge any electrostatic energy before opening the device to install replace an I O module We recommend wearing a wrist band static discharge wrist band and to carry out the work on a conductive surface 179 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology 9 2 Introduction Dear User Thank you for purchasing the I O module AMDT With this module you have acquired a high quality product with extensive options for data acquisiti
117. ernal trigger signal fails measurement is triggered at a time period of 6 s Event 1 marks the Failure of trigger signal of Digital input 1 Event 2 marks the recovery of the trigger signal 207 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology 9 4 3 Time signal Any acquired vibration signal is initially saved to a buffer within the I O module The analog input channel delivers a block of measured data e g 2048 amplitude values over time This block is referred to as a time signal Properties e 128 to 8192 samples synchronous parallel sampled at 256 to 20480 Hz e Variable pre post history and or triggers e Digital filters integrators etc can be used e Data compression can be used for transmission 9 4 3 1 Digital filter Properties Choice of filter type low pass band pass high pass or demodulation filter e Filter order of 2 8 preset Butterworth characteristic e Adjustable cut off frequency in the range 1 Hz 10 kHz e Adjustable filters for each channel Application High frequency distortions are filtered out of the signal to be recorded the signal is filtered for only the frequency range required Restrictions The digital filter is defeated if necessary by this limitations Board V2 0 to V2 1 2 With 1 4 used analog inputs All filters available Max order is 8 With 5 8 used analog inputs Only Low pass filter available Max order is 4 From board V2 1 3
118. ery LogMessage device Brackets for rail mountings Ethernet cross cable RS232 connection cable with D SUB DB9 connectors CD containing ProfiSignal software Documentation The devices can be equipped with various I O modules Available I O modules AAST 4 analog inputs for V mV 20mA Pt100 thermocouples 2 digital inputs 4 analog outputs 20mA 2 digital outputs ADFT 8 analog inputs for V mV 20mA 2 frequency or counter inputs 2 digital inputs 2 analog outputs 10V 4 digital outputs ADGT V2 0 8 analog inputs for V mV 20mA Pt100 thermocouples ADGT V3 0 8 analog inputs for V mV 20mA Pt100 thermocouples ADIT 10 analog inputs for V mV 20mA Pt100 thermocouples 1 analog output 20mA 1 digital output ADVT 15 analog inputs for V mV 20mA thermocouples AMDT module with DSP enables calculation functions 8 analog inputs for V mV 20mA 2 frequency or counter inputs 2 digital inputs 2 analog outputs 10V 4 digital outputs DIOT 11 frequency or counter inputs 1 digital input 16 digital outputs IOIT 24 digital inputs 1 digital output OTPT 1 digital input 24 digital outputs LogMessage 4 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin 2 2 chology System requirements The following hardware requirements are the minimum requirements to ensure problem free operation of the Delphin products Operating System Microsoft Windows XP 32 bi
119. es pulses at 00 15 30 and 45 minu tes of each hour Only discrete values can be entered here because impulses are ge nerated only at whole number ratios Pulse wath sets the pulse duration i e how long the pulse maintains a High level Cycle time sets the pulse repetition rate In Synchronic to real time mode only specific times can be selected from the list because the cycles must be at whole number ratios After closing the dialogue with OK a check for validity is performed If the input is invalid e g the pulse width is greater than the cycle time an error message is displayed and the previous valid configuration is retained 111 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology fez Error Ea X The configuration is incomplete incorrect Source The Level trigger option means that the pulse generator functions only during the Source s active time The Edge trigger option means that the pulse generator starts with the source s edge and runs continuously until stopped with Reset 10 01 35 10 01 40 10 01 45 10 01 50 10 01 55 10 02 00 27 10 2011 The diagram shows the release of the pulse red curve by the source blue curve Reset when the event occurs immediately resets the pulse generator output to asyn chronous Low level If the Level trigger setting is selected this signal permanently sup presses further pulses occurring at the pu
120. ess 5 2 2 Settings This section enables network and timezone settings The NIP status is obtained by clicking NTP status above 5 2 2 1 Network This window enables network data to be input or amended Settings are made only after clicking Save After changing the P address or subnet mask the device is then accessible only via the new address The PC s IP address and possibly subnet mask then also requires amending to establish a connection LogMessage 44 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology Network settings R234 beta5 8125M LAN Status eth0 negotiated 100baseTx FD link ok Hostname LogMessage Domain aeolus local IP address 192 168 251 239 Subnet mask 255 255 240 0 Default Gateway 192 168 254 254 MTU 1500 DNS server 1 192 168 248 20 DNS server 2 192 168 248 21 NTP servers 127 127 20 3 Save The hostname network name for the device domain and DNS server are used to convert network names into the corresponding IP address Leave the DNS server field empty when a DNS server is unavailable on the network Do not use invalid characters for network host and domain names no underscores or special characters and only ASCII characters i e no German umlauts etc but hyphens are allowed Ask your network administrator whether your network requires MTU and gateway informati on Otherwise leave the 1500 default setting for MTU A gateway addr
121. ess is required only if connections are to be established to other networks For the NTP server field enter the IP address of one or more available NTP time servers NTP Network Time Protocol to enable correct time settings for the device The NTP time server can be any other network device such as a PC or another LogMessage device The integrated Windows time server SNTP Simple Network Time Protocol is however not re commended due to it having insufficient information on synchronization status The device accepts S NTP times but only when the S NTP is synchronized to an internet time server or to DCF77 or GPS and is able to provide information on the quality of synchronization If necessary download an NTP time server from http www meinberg de german sw ntp htm 45 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology 5 2 2 2 Clock settings Use this window to specify the timezone that the device is to use Store the selection by clicking Save Clock settings R232 7515 World map based on CIA World Factbook Sept 2011 Save Timezone Germany Berlin z Current time Fri 2012 06 22 13 39 59 CEST UTC 0200 Change time 2012 06 22 13 39 59 E _ Manually synchronize with NTP servers NTP status When a time server is unavailable the date and time can be manually set The device s in ternal clock then functions without synchronization to a time
122. essage Delphin chnology Encoding type Specifies the encoding type for interpreting the transmitted received data Byte order The byte order byte sequence is a number made up of several bytes how by tes are ordered to the address BigEndian also known as Motorola format orders the most significant byte to the lowest address LittleEndian also known as In tel format orders the least significant byte to the lowest address Refer also to http de wikipedia org wiki Byte Reihenfolge Word order Like the byte order word order orders Word data 1 word 2 bytes 16 bits to addresses In addition to determining byte order a different word ordering may be necessary Byte pattern To display the different byte and word order combinations a hex value a ran dom number in the example is shown with the resulting byte pattern of a CAN message v Startposition within reference data Byte offset The length of the payload data i e the size of the data field DATA of a CAN message is limited to a maximum of 8 bytes This allows multiple signals to be transmitted within a CAN message as long as not all the 8 bytes per signal are being used this would only be the case with a binary coded 64 bit floating va lue Enter the starting byte for this signal s payload data In the example the va lue of 4 means that for example two signals each with 2 bytes binary coded 16 bit integer value would fit before the current signal an
123. essage device s non volatile memory and remain there even following a device reset Open the configuration dialog for a channel by double clicking the channel name or right clicking and selecting Properties from the context menu Objects that do not have this entry in their context menus are not configurable via the DataService Configurator but act as containers i e as channel groups for more sub channels such as the software channels group Channels from a channel group are displayed by clicking the corresponding plus sign 5 41 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay DataService Configurator options e Hide or show columns for the different tabs on or off View Left panel Visible columns or View Right panel Visible columns e Set the DataService Configurator time zone View Timezone e Change the DataService Configurator s display language via Options Language e Suppress confirmation requests Options Don t prompt for confirmation e Change channel order via Options Activate channel move link Only available in the User defined view Further information is available in the manual for the DataService Configurator LogMessage 42 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin ch ology 5 2 Configuration via an internet browser The web configuration is performed by entering the IP address or the DNS name for net wor
124. event of a trigger signal failure There are two variants e Single stage redundancy The failure of a trigger signal on digital input 1 switches to the time period trigger e Double stage redundancy The failure of a trigger signal on digital input 1 switches to the trigger signal on digi tal input 2 If digital input 2 also fails the signal is switched to the time period si gnal Configuration example Main settings Advanced settings Mode T tigger Recording Time signal FFT Spectrum Speed meas Mode for counters Pulse count Frequency measurement Gatetime 1000 ms Speed measurement Source Digital Input 11 Redundancy mode Off 9 Single stage Double stage LogMessage 206 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology Main settings Advanced settings Mode Trigger Recording Time signal FFT Spectrum Speed meas Source Trigger source Trigger channel Digital input X Digital Input 1 Trigger period Trigger threshold Pre Trigger 6000 ms 0 00 ES 0 gt Mode j Polarity Level Positive Edge 0 Negative Start Stop Trigger Active Number of trigger pulses 1 a Function and visualisation example WFFT Kaskaden 29 01 2007 09 55 46 294 Comment to illustration above A frequency spectrum is measured here every 3 seconds If the ext
125. f main amplitude Main amplitude Rotation speed Phase of main amplitude Amplitude of 1x component Phase of 1x component Amplitude of 2x component Phase of 2x component Maximum of vector sum Mean of product Frequency of main amplitude band 1 Main amplitude band 1 RMS value band 1 Frequency of main amplitude band 2 Main amplitude band 2 RMS value band 2 Frequency of main amplitude band 3 Main amplitude band 3 RMS value band 3 Maximum value Minimum value Amplitude of 3x component Phase of 3x component Amplitude of xX component Phase of xX component Sum value Remainder value 247 see section characteristics LogMessage July 2012 LogMessage Delphin Technology Main settings tab Here characteristic Peak to peak value as example V Active Channelname PeakPeakVal Hz Location Description Peak to Peak value of an AMDT Analog Input Main settings Advanced settings v 9 10000 10000 Ma 10000 10000 F Smooth curve Eliminate glitches Active Activating this channel transmits the selected vibration wave characteristic value as mea surement data following each triggering Measurement range Scaling Unit The Characteristic value channel is derived from one of the analog input channels and therefore inherits its scaling The effective scaling is grayed out here Exceptions are those characteristic values that deliver frequency or phase m
126. fiMessage Firmware 110627 r221 build6526 tar bz2 New Firmware file Durchsuchen Startfirmware update LogMessage 254 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology The device will reboot after the update reboot A message is displayed during loading and when a restart has been completed Update firmware R224 Build 6850 D UpdateFirmware Rev 6484 Stripping header OK Decompressing archive OK Unpacking updater OK Executing updater FirmwareUpdater Rev 6433 Unpacking archive Done Updating from R224 Build 6850 ProfiMessage Firmware 110912 r224 build6850 tar bz2 to R225 Build 6914 ProfiMessage Firmware 110920 r225 build6914 tar bz2 Checking Kernel Writing Done Verifying Done Checking RamDisk Not provided Checking U Boot Writing Done Verifying Done Stopping Services Shutting down FRoG OK Shutting down PoND OK J Starting HW watchdog OK Copying files Done System is rebooting now Please standby about one minute The process finishes about one minute later Then return to the home page Back 255 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology 9 6 Information on applications The Applications with AMDT manual contains information on typical industrial applications It includes information on the fundamentals of applications advice on con
127. file to loaded in Configuration file or click on Search to find the file on your PC file extension tar gz Then click Load configuration Loading takes about 1 minute A message is displayed during loading and when a restart has been completed Load configuration R224 Build 6850 LoadConfig Rev 6445 Unpacking file Done Stopping Services Shutting down FRoG OK Shutting down PoND OK Done Copying files Done Starting Services Starting POND OK Starting FRoG OK Done The process is complete when Done is the last message displayed 5 2 3 3 Default configuration Resetting to factory setting cannot be undone Therefore save the current configuration using Save Refer to Saving and loading configurations By clicking Default configuration all settings except for the network date and time settings are reset to the factory settings The process is displayed in a window Creating default configuration Shutting down FRoG OK Shutting down PoND OK Creating default configuration Done Starting PoND OK Starting FRoG OK The process ends when Back is displayed in the window s footer 49 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay After resetting to factory settings the I O modules are disabled and requi red the reassigning of a module number refer to I O module Info 63 Resetting the configuration t
128. from the central unit CPU and power as well as from each other The CAN ports and COM1 are not isolated from each other and nor is COM2 to COM3 For system reasons the USB interface is not isolated The diagram shows the individual galvanic isolating properties of the device O 0 Module 1 EX Power 0O O 4 I O Module 2 i NJ Galvanic isolation O Ethernet CPU o Ext BUS O CAN COM1 O 4 COM2 COM3 TERT O 4 COM4 Refer also to shielding LogMessage 158 July 2012 2010 2012 Delphin Technology AG Deipnin LogMessage 7 2 Earthing The PE terminal for the power supply is the ground terminal for the device This terminal is internally connected to the metal housings of the USB LAN and COM ports but has no connection to the 0 V terminal s WOO 24V OV PE Power ov 18 28 V 12 36 Vig 10 Connect the PE terminal with a 2 2 5 mm cable to the protective earth of your power sup ply Refer also to Shielding Galvanic isolation LogMessage 159 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology 7 3 Earth loops When linking a sensor measurement device and computer together then establishes connections between different ground points Unless the individual devices are connected to protective earth this e
129. gurator The ProfiSignal program provides evaluation and visualisation functions for measurement data 9 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin 3 3 chnology PC connection Preparing the PC The factory setting of the IP address is printed on a sticker on the device If the sticker is lost the please try the IP address 192 168 251 252 Net mask 255 255 240 0 To be able to establish a connection using this address the PC must be temporarily set to a different address within the same IP segment 1 2 Run the network connection dialog Depending on the operating system being used the the dialog can be accessed from either the Windows Start button and Network settings or via the Control Panel Net work and Sharing Center Display the Properties of the connection to which the device is to connect usually labelled Local Area Connection In Windows Vista click Status then Properties Display the Properties for the internet protocol 4 Local Area Connection Properties mpl Networking Connect using Intel R PRO 1000 MT Network Connection This connection uses the following items iv amp Client for Microsoft Networks aos Packet Scheduler Fie and Printer Sharing for Microsoft Networks 4 Intemet Protocol Version 6 TCP IPv6 KI K KRKK intemet Protocol Version 4 TCP IPv4 amp Link Layer Topology Discovery Mapper I O
130. hannel groups The Data transfer to USB memory stick section explains how to externally back up in ternally stored data Configuring the various I O module channels is described in detail in the section on Configuring module channels Read the Configuring interfaces section on how to use the various interfaces for connecting or exchanging data with external devices The Configuring software channels section describes the various ways in which to perform calculations on the measurement data or between channels See also Getting Started Settings for all dialogs LogMessage 40 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology 5 1 Overview See also Getting started Configuration of the most important parameters such as network settings can be perfor med using either the Web Interface from the device or the DataService Configurator Set tings via the web interface are described in the Configuration via an internet browser sec tion The configuration of sensor and actuator connections and the definition of calculati on software channels takes place via the DataService Configurator and is explained in the following sections A detailed description of DataService Configurator is available in the Da taService Configurator manual Clicking DataService Configurator starts the DataService background program and establis hes a connection to the devices the default for the first installation is expla
131. he device level The next level is the user defined view left panel and displays the I O modules the interfaces memory and the software channels The hardware view right panel displays the various system interfaces memory and software channels The I O modules are located in the Ext BUS group Channels Channel cem LoaMessage 192 168 251 239 PoND 234 beta5 8125M E System Monitor l Interfaces m E Software channels W 10 100Base T Channels 3 can CAN s COM RS485 cem LogMessage 192 168 251 239 PoND 234 beta5 8125M COM2 RS485 E System Monitor COM3 RS232 i l Interfaces COMA RS232 gy Software channels 1 aga Ext BUS Amp 1 0 Module 2 ADIT Module ADIT m E Memory s Milli Memory Sy USB Master This section explains the settings that users can make themselves This takes place via LogMessage 192 168 100 116 in the Channels tab in the DataService Configurator see example Use the Properties context menu to amend a device name and ID or to en ter a description for the device Use Main settings context menu to amend network and NTP settings Refer to Configuring main unit Network settings NTP The explanations of other settings refer to e Memory for internal memory e Configuring module channels for I O modules e Configuring interfaces for CAN COM and e Configuring software channels for system monitoring and calculations Info e3 For general informat
132. he section digital filters Integrator Activates numerical integration of the time signal The scaling factor is fixed at a pre set value of 1000 Example For measurements using velocity sensors a vibration wave velocity signal m s unit is converted into a vibration speed signal mnys unit Refer to the Applicati ons with AMDT manual Using a digital integrator can be limited to 1 4 analog inputs depen ding on board revision An overview is available in the section Integra tor 245 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology v Sensor correction tab Main settings Advanced settings Additional settings Filter settings Sensor correction 7 Active Mode Offset and gradient 2 calibration points Z Calibration points Correct value 9 Measured value 9 Import 1 0 0 12 2 10000 9992 Mode Calibration points Performs correction for offset and gain A simple variance analysis is used Input is re quired of two points from the linear characteristic curve 9 5 1 4 Configuration settings for FFT spectrum Main settings tab 7 Active Channelname FftSpectrum Init Hz Location Description Spectrum of an AMDT Analog Input Main settings Advanced settings Sealing du lau amp easunnd vali Smale ALI Min 10000 wv 140000 Max 10000 fm 10000 Active Activating this channel
133. he sensor or signal source can be entered he re Description For entering a description or comment After creating a function software channel a description of the function in English appears here v Lower section 4 Previous Next X Cancel Help Last change 02 04 2012 09 23 31 995 Previous or Next Changes to the configuration dialog of the previous or next channel in the channel view The dialog s current settings are applied before the dialog changes the equivalent of clicking on OK OK Applies all the settings and closes the dialog Cancel Cancels the configuration and closes the dialog The settings are ignored and no changes are made within the device Help Opens the online help The appropriate topic is displayed whenever possible The date and time display of the last setting change for the channel is displayed in the lower left corner 08 25 2011 in the example 67 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology Tabs in the dialog s main section Depending on the type of channel different tabs are available Not every channel type has the following tabs e Main settings Advanced settings e Additional settings e Measuring time e Sensor correction The settings in the Main settings and Additional settings tabs differ according to channel type and are therefore not described here There are also other tabs that relate to specific chan
134. he time signal 1 n l y X with x Amplitude of point i n Number of points y Mean value The arithmetical average is also referred to as a signal s steady or DC component This cha racteristic value is available even when the option Without DC part is enabled for an ana log input see configuration settings for an analog input Apply window function option Main settings Advanced settings Scaling Measunna value Scale value Min 10000 mv 10000 mv Max 10000 mv 10000 mV F Apply window function S 213 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay Select this option to calm measurement data for a static vibration wave A weighting is then applied prior to the arithmetic average being calculated A low weighting is given to the signal s periphery and a higher weighting to its middle 9 4 5 4 Characteristic True RMS value The DSP calculates the root mean square of the time signal with x t Amplitude ot time t T Recording time y True RMS value Discretization enables a good approximation to the above exact formula Info The accuracy of TRMS calculations on sine signals depends on the number of signal periods acquired The rule of thumb Errors are lt 3 for more than 2 periods Errors are lt 1 for more than 4 periods 9 4 5 5 Characteristic Frequency of main amplitude The DSP dete
135. ical linking of digital signals Various boolean functions are available AND OR NAND NOR NOT XOR and XNOR as well as Antivalence XOR with more than two inputs and Equivalence XNOR with more than two inputs Logic gate type NOT z o 5 AND NAND XOR gt Antivalence 3 j P 5 Add input DR NOR XNOR i Equivalence Add input generates additional inputs All inputs are linked according to the selected logic Info NOT XOR and XNOR functions can link only one or two inputs Only this number of inputs can then be created Click X delete an input v Function table NOT Output value v Function table AND 123 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin echnology v Function table OR Input value A Input value B Output value LogMessage 124 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology v Function table XNOR Input value A Input value B Output value v Function table Antivalence The output for Antivalence is then High if an odd number of inputs are High and the remaining inputs are Low 125 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin ch oloay v Function table Equivalence Input value A Input value B Output value E E ooo CM E E 5 8 11 Variables This software channel provides a control option that enables either manual control over the processe
136. igital input counter e g the square wave pulse of a rotating shaft This signal delivers a stable base frequency f The DSP normalizes the time signal internally hidden to an integral multiple of the basic frequency f A t 1 f Trigger signal 217 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology Using the frequency spectrum for the line index f 2f 3f xf the DSP determines the 0 360 phasing for this line vibration component A f o 2L 28 Measured main frequency Only the free definable component Phase of xX component can be set in the range O 100 x f See Below is the corresponding configuration dialog Tab Main settings with the field Speed factor Main settings Advanced settings Scaling 10000 10000 10000 10000 Speed factor 4 4 9 4 5 10 Characteristic Rotation speed The DSP determines finds and counts the number of signal periods in the time signal From this the DSP determines the signal frequency f 1 T or rotation n 60 f Edge and threshold values can be set A t LogMessage 218 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology A frequency measurement has upper and lower frequency limits frequencies outside this range can are not conclusive i e have insufficient accuracy The following table provides an overview idi a aa tell Rael
137. in chralogy 10 2 ISO 9001 certificate R LRQA LRQ Assurance CERTIFICATE OF APPROVAL This is to certify that the Quality Management System of Delphin Technology AG Lustheide 81 51427 Bergisch Gladbach Germany has been approved by Lloyd s Register Quality Assurance to the following Quality Management System Standards ISO 9001 2008 The Quality Management System is applicable to Development manufacture and service of dataloggers monitoring and measurement data acquisition systems including associated software Approval Original Approval 27 June 1996 Certificate No KLN 0201756 Current Certificate 1 July 2011 Certificate Expiry 30 June 2014 Issued by Lloyd s Register Quality Assurance GmbH For and on behalf of Lloyd s Register Quality Assurance Limited This document is subject to the provision on the reverse 71 Fenchurch Street London EC3M 4BS United Kingdom registration number 1879370 This approval is carried out in accordance with the LRQA assessment and certification procedures and monitored by LRQA The use of the UKAS Accreditation Marx indicates Accreditation in respect of those activities covered by the Accreditation Certificate Number 001 Macro Revision 13 LogMessage 260 July 2012 2010 2012 Delphin Technology AG LogMessage Index A Adder 106 Advanced channel selection 103 Advanced settings software channels Advanced settings tab 68 Alarm clock 145 Analog input
138. ined in the Getting started section The DataService Configurator dialog is split enabling a device to be selected on the left under Connections and settings to be made on the right under Chan nels The device itself is considered a channel and in the example is listed as LogMessa ge 192 168 100 116 POND 2 2 a DataService Configurator Connect View Options Help Connections Channels Database Alerting Scheduler User management Connections Channels Database Alerting Scheduler User management Name Host IP Connect State Channel Value State Channeltype Channelnumber Storage DataService ID 2129 TIDVM Yes Online ProfiMessage ProfiMessage 5N41030570 PoND 232 7515 Online Device gt No x 192 168 100 116 192 168 100 116 Yes Online amp System Manitor Channelgoup gag 1 0 Module 1 AMDT Module AMDT Ok Module 0 No ap 1 0 Module 2 ADIT Module ADIT Ok Module 0 No l Interfaces Interfaces p Memory 435 MB Ok Memory Device pum Software channels CPU Module Configuration Events Channel configuration Any configuration performed in the DataService Configurator is considered a channel confi guration even when not strictly concerning a measurement channel i e a device interface memory group or module Amendments to configurations take immediate effect with the previous settings being over written The new settings are saved to the LogM
139. ion causes an alarm to re set when the alarm condition is still true Refer also to Trigger options Method e Select one or more channels to trigger a batch alarm from the Available channels field and click gt to accept the selection e Select one or more channels from Monitored channels and click em to remove the se lection 131 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology 5 8 16 Setpoint This software channel enables the device to be used as a programmer The setpoint table enables the conditional procedures to be programmed that can be repeated as often as re quired Main settings Advanced settings Table Setting Table Table type Local table M V infinite v Start Rising edge Digital Input 11 Y V Inherite state 1v Break High level Digital Input 03 Pp V Inherite state v Reset Risingedge Digital Input 14 J Dinhette state Table type Use a global Global table Global table setting that has been created for the de vice refer to Global setpoint tables or define a table for a specific channel Local table set ting In the latter case a Table tab will appear Number of repeats To determine whether and how often the program sequence will be re peated automatically After the last repeat the final setpoint remains in the table Start The state Level or edge Edge of the specified channel starts the program at th
140. ion on configuration dialogs including header and foo ter refer to Settings for all dialogs 55 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology 5 3 1 Device configuration channel configuration Open the configuration dialog either by double clicking the device or by selecting Properties from the context menu Channel settings Device ProfiMessage SN41030570 ProfiMessage SN41030570 fea ProfiMessage SN 41030570 Location Description ProfiMessage Device Main settings Device ID Serial number as Device ID 41030570 D Device ID given by user Last change 02 04 2012 09 23 16 366 This dialog enables users to e Enter information about the device s Location and its function Description For example enter the location of the device or of the object from which data is being acquired e Amending Device ID Device ID The DataService uses the device ID to uniquely identify a device and its channels The fac tory setting for the device ID is its serial number The device ID is displayed as the main part of the Device ID under the DataService s column of the same name The column can be displayed via View Right panel Visible channel sheet columns The device ID requires amending when copying the configuration from one device to ano ther and then running both devices together on the same DataService Both devices would then h
141. is not enabled Y1 14 11 35 922 Trigger Timer Aus Quelle D1 Time 32 000 sec 34 000 sec 36 000 sec 38 000 sec 40 000 sec 03 03 2011 14 11 The source purple curve triggers with a falling edge The delay is 7 seconds Retrig gerable is not enabled 143 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology v Example of a reset 02 Res Pe uelle D1 Time 13 40 00 13 40 05 13 40 10 13 40 15 13 40 20 09 03 2011 The source purple curve triggers with a rising edge The delay is controlled via a channel Retriggerable is not enabled reset green curve is performed at Rising edge 02 Res Quelle 01 Time 13 37 20 13 37 25 13 37 30 13 37 35 09 03 2011 The source purple Triggers curve with Rising edge The delay time is controlled via a channel Retriggerable is not active reset green Curve is performed at a High level The timer black curve is then blocked for the duration of the reset signal 5 8 22 Trigger This software channel uses the signal source to generate a logic signal for further proces sing Its output is active On after a trigger event trigger High level Lowlevel Rising edge Falling edge or Edge both A trigger channel can be used for edge detection or recognition of a non zero numeric va lue LogMessage 144 July 2012 2010 2012 Delphin Technology AG LogMes
142. istance clearance sensors or 0 to 50 g for velocity sensors Application Analog outputs are used as monitors for specific measurement data e g speed or vibration amplitude Also as signal generators z B set point ramp 9 3 4 4 Digital inputs Properties 4 digital inputs Galvanic isolation up to 2 5 kV Reverse polarity protection up to 1 kV Low level 0 1 5 V 0O 1 5 mA High level 3 5 90 V 3 mA Refresh rate Digital inputs are sampled at 1 kHz 1 ms The minimum signal pulse width is 1 ms Recom mended pulse width is gt 2 5 ms Maximum continuous signal frequency is 50 Hz Application Digital inputs are used as trigger sources with simultaneous frequency or rotation speed measurement and phase measurement 9 3 4 5 Counter Properties 2 or 4 digital inputs see above are each equipped with 16 bit counters Choice of pulse counting in the 0 to 65535 range or frequency measurement in the 0 2 Hz to 30 kHz range Automatic switching of measurement mode at 100 Hz Refresh rate Counters are sampled at 4 Hz 250 ms The minimum evaluable pulse width of a signal is 0 02 ms Recommended pulse width is gt 0 1 ms Frequency measurement precision Basic accuracy is 1 9o of the input frequency up to 100 Hz and 1 Hz above 100 Hz Application Digital inputs are used as trigger sources with simultaneous rotation speed measurement and phase measurement 189 LogMessage 2010 2012 Delphin Technology AG July
143. it having insufficient information on synchronization status The device accepts S NTP times but only when the S NTP is synchronized to an internet time server or to DCF77 or GPS and is able to provide information on the quality of synchronization Download an NTP server from http www meinberg de german sw ntp htm if necessary As of Firmware Version R233 it is possible to connect GPS clocks e g Holux GR 213 For that enter the pseudo IP address 127 127 20 3 in the NTP server field Additionally deactivate the corresponding channel Device gt Interfaces gt COM3 RS232 When the GPS receiver has locked on valid sattelite signal after a while the NTP status will change to synchronized to UHF radio at stratum 1 Example of absent or incorrect time synchronization DataService Configurator i x I za DataService Configurator Connect View Options Help I Connections Channels Database Alerting Scheduler User management Hos I E DataService ID 2129 Win 32BilVM Yes Online 5 192 168 100 116 192 168 100 116 Yes Online Time of device differ Info NTP synchronization requires up to 5 minutes to adjust to the NTP time ser ver after the device has been switched on The NTP status will be invalid du ring this period and will display the message Synchronised to unspecified at stratum 13 59 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay 5 4 Storag
144. k xIi Raga uci aded a erbrreeis 106 sole 107 Em 109 Impulse generator xa kEPRRRREXRRUEERREXRERERFEREENEMER ERE E YXXRYR 111 IntegratOE iie xr xe UR e RON RUE UR ROTER anne CR CLER RR CON 121 LINCANIZALION ec ccccicissstceriiricatet ieee dd secdeedsaneestaneeeslaacns Aai aaa 121 OIG caste share erp 123 VEIT ELLE 126 Average isses sse ee heeEEERERUFAL URR EA EENDE i TENEUR EIEE DAA DENEAN 127 Pulse width modulation PWM sssssssssssrsrssnnrrrnrrrrnnrrrnrrrrnrrrrenn 127 II LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnolcay Calculation channel esses meme nnn 128 Collective faul aset tete onde icta e ec s Ra ance gie RERO 131 Setpoiht s rccenr era eR REED RS ERERRERYXEXNREEE KO NER UE TUNE n EE FERE ARA 132 STATISTIC Sannas EEUU 134 Status rmmonltOr usc escesoaa nn nenna aa Aa aAA aa NERA K ERE 135 StODpWatCli ioa siio aux a E REPTTTTRRGRRXRUNE 136 Systeri DO EO Ts sie ne e eR ehh e e OR Gk nno AO e TRU RO ent Ru ha 141 VM OR E eux Rh Rue y XR EEETEFERENFRNE RNC ERKRK RE Nx IS KS CAR RUE 141 Piniel o rere ox e Ra Yer cer RN ENRERAE REFERENCE EERSERSSRRGUTREKRE DD ER ER 144 Alarmeloc e iii esie ex exon xR up eae YXRRRDIRI RRXUFER AANER AARNEN 145 ende c ERE 146 6 Connection examples 1 1 oi ssnnx ian ans suE na aa E uEanwE RR ERE EVEN ME FNFEERN FERMER 150 Connecting sensors eeeessssseesennaannn enu u ARANNA ARAN
145. key to delete unwanted rows Insert extra rows in a linear interpolation using the Return key A created table can be exported and then re imported later Export and Im port LogMessage 72 July 2012 2010 2012 Delphin Technology AG LogMessage 5 6 2 2 Global setpoint tables Del phin Technology An external setpoint table that can be used as a global table for multiple channels is crea ted via the Global setpoint table context menu of device The setpoint table creates a conditional procedure whose points are set by value pairs ma de up from a period and a value Each row of the table describes a program step for time t fixed or variable and value y fixed or variable Based on the previous value of yi 1 the ti value indicates how long will it take to achieve the yi value The first row defines the starting point of the track so at least two pairs of values require entering One variable is defined via the setpoint channel that uses the table External setpoint table General Estemal SetpointT able Table name External SetpointT able Trigger Value channel Time unit Value channel Global settings None 0 Da 22 5 en Ll Y V Relative time None 15 Minute 22 5 None 6 Minute 35 H Cycle time None 6 Minute 22 5 None 6 Minute 10 50 milliseconds None 6 Minute 22 5 New Import Export Delet Change table entries Time Value X 39 Minute M Value
146. ks in the browser s address bar Any current browser can be used Cookies are not re quired for the functions and JavaScript is used only for date and time settings Refer also to Unknown IP address Info Click Save after entering the settings otherwise they will not be amended within the device To return to the main menu either click the Back button on your browser or click Back at the bottom of the screen Settings via the web interface are made in the the following four areas Settings Configu ration Service and System To display the current status of the NTP client click NTP sta tus or Clock Many of the settings made through the device web interface can also be made via the DataService Configurator Refer to Configuring the LogMessage device The browser display for a device with the address 192 168 100 116 the host name Lo gMessage and the domain example com 5 2 1 Unknown IP address If an IP address has been amended and then forgotten the new address can be determi ned via a connection to the serial interface Requirements e A Null modem cable crossover serial cable D SUB DB9 connector coupling to D SUB DB9 connector coupling that is included the delivery e A terminal program such as Windows HyperTerminal or PuTTY Info Putty can be downloaded using the device s Service option and via the web interface when connected Method 1 Connect the RS232 port of your PC to the COM4 port
147. lectro conductive connection creates an electrical circuit bet ween the devices The result is a so called earth or ground loop shown red in the exam ple This can have the following effects e In practice the earthing points U1 U3 shown in the example do not necessarily possess equal potential Constant or changing potential differences can occur bet ween the earthing points due to the earthing plan and wiring Compensating cur rents then occur in the sensor and communication circuits e Interference in the sensor or communication circuits e g through electromagnetic fields enable parasitic currents to occur within the circuit Compensation and parasitic currents lead to interference or noise voltage at the input of the measuring instrument and thus creating constant or fluctuating measurement errors computer measurement device sensor communication circuit sensor circuit Prevent earth loops Earth loop between sensor measurement device Galvanic isolation of the I O modules to the central device means earth loops via the sen sor circuit as shown in the example can not occur within the device Earth loops can ho wever occur between the sensors of different channels of a module To avoid such loops we recommend the use of earth free sensors or signal sources Refer also to potential differences LogMessage 160 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay
148. lel alignment e Make sure that the boards keep within the side slots when installing them into the base board LogMessage 38 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology e Note that the front fits only in one direction to the bottom part It may be necessary to rotate the module through 180 degrees e Do not fully tighten each screw one after the other Lightly tighten one screw then move to the next repeating the procedure until all screws are fully tightened 39 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin 5 chnology Configuration and operation The following sections are covered here The Configuration via web browser explains how to make device settings via an in ternet browser The following functions are possible via the device s web interface saving and loa ding device configurations resetting to factory settings firmware updating Some basic settings are also possible e g Ethernet interface or device clock Basic device settings such as the network settings or the device ID is described in the Device configuration section The Connecting slave devices section explains the configuration process when multi ple devices are being used Devices are equipped with internal memories to enable configurations to be saved The Memory section explains how this storage space can be used the space e g for partitioning across different c
149. logy 8 1 Main device Weight approx 1 kg Dimensions 200 x 73 x 120 mm Material Plastic housing Humidity 20 8096 non condensing Temperature range 20 60 C Supply 12 28 V 10 OF 12 36 V pc 10 ETT REESE 128 MB of DDR Real time clock Resolution of 100 ms battery backed Backup battery CR2450 lithium battery backup time of at least 10 years Web Server Basic configuration firmware upgrade loading and saving configuration 1 The AMDT module requires a supply of at least 18 V AC DC v Ethernet interface Ethernet standards 10 100Base T half and full duplex autonegotiation Protocols TCP IP UDP ICMP HTTP SMTP NTP Modbus TCP Cli ent Server Connector RJ45 8 pin connector TP Galvanic isolation 1 5 kV eff 167 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin echnology v USBinterface Transmission speed USB 2 0 Full Speed USB 1 1 compatible Power for external devices 5 V max 500 mA High Power v External bus Ext Bus v COM1 Interface Type RS485 interface Connector 9 pin D SUB connector pin assignment to IEC 61158 EN19245 T1 Galvanic isolation 1 kV no isolation to CAN CAN CAN bus Connector 9 pin D SUB connector pin assignment according to CiA DS102 1 pin 2 and pin 7 Galvanic isolation 1 kV no isolation to COM1 LogMessage 168 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin
150. lphin chraloay Configuration Settings Settings for the operating mode is as follows Main settings Advanced settings Mode T rigger Recording Time signal FFT Spectrum Speed meas L Module information Type AMDT Version 2 12 CAN ID 100829 Module number Ami Synchronization of two modules V Active 9 Master C Slave Firmware update V Automatic firmware update One I O module AMDT is configured as Master the other as Slave Overview of possible trigger settings External trigger signal Master Slave Trigger source Trigger source Analog signal wired only at master Analog input Digital signal wired at master and slave Digital input Digital input Digital signal wired only at master Digital input 201 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology Settings for triggering is as follows Time signal FFT Spectrum Speed meas Source Trigger source Trigger channel Digital input X Digital Input 11 X Triaaer period Trigger threshold Pre T rigger 7000 ims 0 00 fo r Mode 4 Polarity Level Positive Edge Negative Start Stop Trigger Active Number of trigger pulses 1 a Master and slave settings are identical LogMessage 202 July 2012 2010 2012 Delphin Technology AG LogMessage Rules f
151. lse generator output Refer also to trigger options LogMessage 112 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology Examples The following are examples of possible uses for the pulse generator v Example 1 Main settings Advanced settings Pulse mode Free running Synchronic to real time E Source Rising edge v Inherite state Pulse width Channel 02 Pulsewidth ImpulseGenerator v A 7 Inherite state 1 Manual value 2 Cycle time O Channel 5 2 Manual value 4 Termination of current cycle v Reset High level 04 Reset_ImpulseGenerator X Inherite state In this example the pulse generator runs in continuous mode Cycle time 5 seconds A channel has been selected for the pulse width that initially outputs the value 1 and then the value 2 The channel is not permitted to output a negative value no negative times nor a value greater than the cycle time i e 5 in this example Another channel is given for the reset 113 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology Impulse D4 Res 08 49 10 08 49 20 08 49 30 08 49 40 08 49 50 04 03 2011 Once the pulse generator starts red curve with a pulse duration of 1 second the pulse duration sets to 2 seconds green curve After three pulses the reset channel purple curve gives the reset signal and the pulse generator
152. me input The numerical values are fixed values and in this case refer to identical time points The final time is 7 the unit is not stated but might for example be minutes LogMessage 74 July 2012 2010 2012 Delphin Technology AG LogMessage v Example of a table Delphin Technology In the table in the example the value 22 5 is held for the first 15 minutes Then after each 6 minutes Relative time setting the value increases to 35 then lowers to 10 via 22 5 and then increases again to 22 5 A change and therefore output of the new va lue takes place every 10 seconds The change over the previous value is therefore around 0 35 for every 10 seconds Trigger L Value channel Time unit Value channel None None None a None None None 0 15 an an a Minute Minute Minute Minute Minute Minute 22 5 22 5 35 22 5 10 22 5 Cycle time The cycle time for values to be output between two program steps Intermedia te values are linearly interpolated i e calculated using a linear equation The intervals used in the table between each program step should be multiples of the cycle time 2010 2012 Delphin Technology AG 75 LogMessage July 2012 LogMessage 5 6 3 I O module Delphin Technology This section describes configurations at the I O module level and how to delete a module entry An I O module appears in the Channels tab as a 45 symbol Th
153. ment data transfer takes place in sequence one after the other The DSP is then on standby for the next trigger event Signal sampling can take place at up to 20 48 kHz parallel across 8 channels Trigger point Trigger point Recording time Recording time EM M Input signal gt Measurement data J Timesignal Measurement data FFT Spectrum i b Measurement data Peak to peak value Measurement data Main amplitude The above graphic represents the generation of measurement data associated with com mon triggers The transmission of the measurement data is time delayed The timing of the entire cycle depends primarily on the user configuration The main factors here are e Recording time Determined by the quotient of the number of samples and the sampling frequency Example 1024 2560 Hz 400 ms e Evaluation time Determined by the number of active channels analog input and the computation ti me required for digital filtering for FFT analysis and for calculation of characteristic Example about 10 ms channel for a 1024 point FFT LogMessage 194 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology e Measurement data transmission time Determined by the number of selected active channels specifically for channels analog input and FFT spectrum Transmission rate is about 10000 samples s Or about 100 m
154. mesignal Measuring range check Monitors whether the input signal remains within the physicl voltage range e g 10 V Wire break monitoring Monitors whether the arithmetical average DC component of the input signal remains within the preset voltage range Anti Alias Filter SW The software Anti Alias Filter is a digital low pass whose cut off frequency is around 40 of the set sampling frequency Select the Automatic to work with the FFT analy sis Compression The I O module can be set to compress measurement data for transmission of all active analog inputs Refer to the time signal tab in configuring setting an I O module This op tion enables individual analog inputs to be excluded from such compression LogMessage 244 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay v Filter settings tab Main settings Advanced settings Additional settings Filter settings Sensor correction Filter Type none X 100 200 Integrator None Integration x 1000 Filter Activates digital filtering of the time signal Options are low pass band pass or high pass filters A Butterworth characteristic is preset Filter order is automatically set in ternally Cut off frequencies can be set at the 1Hz to 10000 Hz range Using a digital high pass filter or band pass filter can be limited to 1 4 analog inputs depending on board revision An overview is available in t
155. n Technology AG LogMessage Delphin chology Format For setting data resolution Persistence not available for all channel types The current valid output value refer to data reduction is stored to a non volatile memory The channel uses this value fol lowing a restart or reboot This feature is particularly important for outputs to establish a predefined state following a power failure v Measurement time settings tab To set an A D measurement cycle for analog input channels i e the frequency to be used for converting an analog signal into a digital value The smaller the frequency the more values are acquired A short measurement cycle may however raise the signal s noise level Input of 50Hz or 60Hz achieves improved network frequency suppression via measure ment cycle and via the A D conversion s special filters v Sensor correction tab To specify correction values for sensors with non linear characteristics or to specify the correct direction for sensors with different characteristic values for positive and negative measurement directions Conversion takes place according to scaling settings in the Main settings tab for the signal delivered by the sensor Sensor correction V Active Mode Offset and gradient 2 calibration points x Calibration points Correctvawe mA Measured value ma imo j o 2 3 2 100 103 4 Ewn Active Enables sensor
156. nalog input channels See section Configuring setting an I O module 241 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology v Main settings tab Main settings Advanced settings Additional settings Filter settings Sensor correction Sensor type Mode Canrecbon Voltage Y bipolar Y Measuring range 10000 00 mV z Scaling Measuring value Scale value 11 Min 10000 00 my 10000 00 mV Max 10000 00 my 10000 00 my 12 Inverting Without DC part Apply window function Rectification Sensor type Mode Measuring range Defining the input measuring range Sensor type enables selection between a volt and current interface Mode enables selection between a bipolar and unipolar measuring ran ge Measuring range selects one of 7 possible measuring ranges from 10000 mV to 156 mV Scaling Unit The four Scaling fields contain scaling as a choice of two points of a linear ordering Example Enter the unit g and the following Scaling values for a velocity sensor with a sensitivity of 100 mV g Scaling Measuring value Scale value Min 100 00 my 1 00 g Max 100 00 m 1 00 g Inversion Activates signal inversion Takes place following recording and prior to evaluation Without DC part Eliminates a signal s DC part Takes place following recording and prior to evaluation The DC part is still made available as a measurement valu
157. name description and channel ID Enter filter criteria in the Advanced search area The filtered channels are then displayed Se lected the required channel and click OK 23 Channel Choice TER Channel Name Channel Description Channel ID Digital Input 11 0x4103057063490DD9 Digital Input 12 D 410305706D48C26B Digital Input 13 0 410305703D 086873 Digital Input 14 0 41030570233F6E 35 Digital Qutput 13 157079101 20E Digital Output 16 Digital Output 17 Digital Output 18 Advanced Search Channel Name Filter dig search in Channel Description _ Case Sensitive CI Channel ID show inactive channels Ty 5 8 1 5 Inherit status This option sets whether the source s status as well as its value is to be used This can be used for example to prevent invalid input values from entering the process Channel sta tus values are available in status monitoring An example of inheriting A thermocouple wire break is also displayed in the software channel as a wire break LogMessage 104 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology 5 8 1 6 Advanced settings tab software channels Advanced settings Default value 0 m T Force default value simulation Data reduction Tolerance 0 1 m X j Format 2 Fractional digits Persistence Active Default value This is used in the event of a input or output failure refer als
158. nections examp les of configurations and much more The main section are e Measurement of absolute bearing vibration e Measurement of relative shaft vibration e Air gap monitoring LogMessage 256 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin echnology 9 7 Appendix to older AMDT hardware This appendix explains features and differences to older hardware AMDT boards V1 0 to V1 2 were manufactured and supplied from 2000 to 2005 Analog inputs Measurement range 10 V alternatively 25 V 10 V 5 V 2 5 V 1 25 V or 2 5 V adjustable via jum 625 mV 312 mV 156 mV ad pers justable via software Coupling DC coupling Preset DC coupling choice of AC coupling via DIP switch Max sampling frequen 25 kHz 20 48 kHz cy Oversampling Anti aliasing filter Set by hardware SMDs possi Automatically adapts with digital fil ble to replace the signal condi ter DSP tioning board Potential isolation A potential difference totalling A potential difference totalling 100 V 2 5 V is permitted between the is permitted between the differential differential inputs connector inputs connector Input protection to 25 V to 250 V Digital inputs Updating Coupled to analog inputs trig Independent ger Frequency measure 0 1 Hz to 100 kHz 0 2 Hz to 30 kHz ment Measurement procedure Pre parameterized automatic Updating Coupled to analog inputs trig Independent ger Analog outputs
159. nels and are therefore described under these channels The other tabs have share common settings and can be explained here v Advanced settings tab Advanced settings Default value 0 m _ Force default value simulation Data reduction Tolerance 0 1 m Format 2 x Fractional digits Persistence Active Default value This is used in the event of a input or output failure refer also to status monitor The settings depend on channel type For example digital inputs have only the options Off and On Force default value simulation Sets the channel s output value This setting is is useful during installation to simulate certain conditions or activate system responses Do not forget to disable the option for normal operation Data reduction Not available for all channel types A signal is fed in at the channel in put processed within the channel and then released to the channel output The tole rance specifies the extent of change a signal value must undergo following processing before being output In the example the processed input value is output only when it differs by more than 0 1 mA to the preceding value The Data reduction function pre vents the device from having to process store superfluous data The tolerance value can be expressed as an absolute measurement unit or as a relative value Refer also to the Scaling section of the Main settings tab LogMessage 68 July 2012 2010 2012 Delphi
160. nels in the chan nel list are saved when the memory group starts The storage group starts by activation in this dialogue or following the switching on rebooting of the device and active storage group Cycle store values When enabled saving takes place at the given interval irre spective of any trigger or tolerance settings Continuous The current value is saved when a tolerance is exceeded depending on the tolerance settings for the channel in the channel list Single step Functions as for the edge trigger but without pre or post trigger ti mes Edge trigger Saving takes places with a change edge in a digital signal Level trigger Measurement data is saved as long as the given level remains active For Edge trigger and Level trigger options an additional pre trigger and post trigger ti me can be given for saving to also take place Data is then stored within these times when a value exceeds the tolerance settings for the respective channel 61 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology v Memory group settings Channellist tab Channel settings Storagegroup Storage Group ProfiMessage SN41030570 mm V Active Channelname Storage Group Unit Location Description Stores measured Data Main settings Advanced settings Storage made Channelist USB export Available Channels Stored Channels Tolerance Unit fipiBel 1 Analog Input
161. nformation on how the current firm ware differs to previous versions The Adobe Acrobat Reader is required The Acrobat Rea der can be downloaded cost free from Adobe Example of a firmware changelog Delphin Technology AG P chino ProfiMessage Firmware D 51427 Bergisch Gladbach Tel 49 0 2204 97685 0 Fax 49 0 2204 97685 85 Changelog http www delphin com Delphin Technology R121 R221 Build 6526 27 June 2011 Web Fixed displaying hostname after changing hostname domain via web interface Channellist Fixed displaying of channel names units and descriptions with gt lt or amp NTP synchronisation after reboot NTP server address change or manual synchronisation faster At boot time the reset reason PowerOn ResetButton Watchdog Restart or Panic is logged and displayed on web front page R1208 R2208 Build 6516 22 June 2011 R1198 R2198 Build 6461 14 June 2011 Downgrade to versions below R118 R218 possible if a compatible boot loader is detected Web Warning if storage medium may prevent a software reboot Reboot Restart and Default config now buttons instead of links NTP status improved Bug fixes Setpoint and Alarm clock LEDs of I O modules will blink when module dialog is open Configurator V3 1 Newly connected I O modules will appear immediately in Configurator deleted but still connected I O modules will re appear Upd
162. nitored channel Forced value The Forced value is a default value e g in the event that a sensor is defective at an analog channel Scale range over The scale range has been exceeded run Scale range under The scale range has underrun run General warning An error has occurred while transferring data End of a trigger End of a trigger block data storage block Input value out of The value of the source channel can not be processed There exists range a parameter error 5 8 19 Stopwatch This software channel records the time between a start and a stop event There are two methods of starting and stopping the stopwatch 1 Starting and stopping by means of an Edge or Level 2 Starting from one channel Edge only and stopping from another channel Edge only In the second example the stopwatch can be restarted Retriggerable via a stop Reset Enabling Reset at start resets the stopwatch to 0 at a start Example 1 Case 1 When not enabled the last value is retained and is added to the new interval Example 1 Case 2 Refer also to Trigger options LogMessage 136 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay v Example 1 Case 1 Setting Start Stop at High level Reset at start is enabled Y1 Cursor 1 12 0 Stopwatch 0 0000 Sekunden 13 1478 Sekunden 13 1478 StopWatch Start Variable Ein Aus i 10 0 80 6 0 4 0 2 0 0 0 StopW 14 37
163. nnel Add channels using the analog input s context menu right click Delete a channel using that channel s context menu E a 1 0 Module 1 AMDT Module AMDT m i ET Properties P quet Configuration gt P Ans Store channel in LJ gt re FFT Spectra gt Aria By Ana Caluculate The dialog is described in configuring setting an FFT spectrum LogMessage 234 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay 9 5 1 1 Configuration settings for I O module I O module settings take place for all analog inputs The most important settings are on the tabs Operating mode Triggering and Recording v Operating mode tab Recording Continuous None continuous FFT Analysis V Active Transfered measured data V Time signal V FFT Spectrum V Characteristics r Simulation F Active Signal 1 i Modulation 5 m Recording To set the main mode of operating Non continuous Recording evaluation and measurement data transfer takes place in chronological sequence Refer to Non continuous recording Continuous Recording evaluation and measurement data transfer takes place in paral lel Refer to Continuous recording FFT analysis To enable disable internal FFT analysis This setting affects the settings options available on the Recording tab Transmitted measurement data To globally set which of the three measurement data types are to be t
164. nput Main settings Advanced settings Invert Invert This option inverts a High level at the input to a Low level at the output measu rement signal in device and vice versa 91 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage 5 6 8 Analog output Delphin chroloay Depending on the module either currents or voltages can be output The Output range in the configuration dialog indicates whether currents can be output in the range 0 20 mA or 4 20 mA or voltages in the range 0 10 V or 10 V r Source Channel Reference Junction L Scaling Scale value Output value m Output range Min 0 00 4 00 0 20 m Max 0 50 20 00 94 20m The example means 0 bar corresponds to 4 mA 0 5 bar corresponds to 20 mA M Source Channel Reference Junction L Min Max Scalin Scale value Output value mV Output range 0 00 0 00 D 10V 0 50 10000 00 The example means 0 bar corresponds to 0 V 0 5 bar corresponds to 10 V LogMessage July 2012 92 2010 2012 Delphin Technology AG LogMessage Delphin chnology Source Enter either a constant value Manual value or use Channel to select an existing channel whose value is then output Selecting Application enables the output value to be manually set via the DataService Configurator or automati
165. nsfer type configuration The prerequisite for both options is the capability of transferring data to a USB memory stick Refer to device memory Info e3 Use a FAT32 formatted USB flash drive with an LED that blinks during the data transfer Data transfer without configuration 1 Plug in the USB memory stick 2 After detection of the USB memory stick data is transferred to the USB stick from the enabled storage groups The transfer is complete when the USB stick s LED stops blinking The data is copied and not deleted from the device 3 Remove the USB memory stick Configuring data transfer 1 Insert the USB memory stick into a PC running the DataService Configurator 2 Open the configuration dialog from the memory group s Save USB export Configura tion option Save USB export configuration mem General Maximum size by part of file 1GB v Mode Start time date Start time of day End time date End time of day v Storage Group 1 incremental 22 06 2011 15 05 17 C Storage Group3 once 22 06 2011 15 0517 ur iv Storage Group2 once 22 06 2011 15 05 17 22 06 2013 7 Export configuration save as c X Save Cancel Help LogMessage 64 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay 3 Select the required memory mode One off Data is saved for the specified period Incrementally Data is saved that has been acquired since th
166. nst factor Nernst factor In 10 molar gas constant absolute temperature Faraday constant with molar gas constant 8 314472 in J mol K absolute temperature temperature of the reference junction 273 15 in K Faraday constant 96 4851534 in J mV mol Sensor type Select pH LogMessage 88 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology Measuring range A range of 625 mV is sufficient for this type of sensor Temp compensation Temperature compensation is determined by measuring the temperature at the measure ment point in the solution to be determined Activate compensation and configure the channel using the Additional settings dialog refer to Settings for all dialogs Scaling The default scaling uses the standard measurement methods and should not be altered 5 6 6 Digital input with counter frequency measurement Use the Main settings for DIOT and ADFT modules or Speed measurement AMDT module tabs to select whether the digital inputs are to be used for counting Pulse count or Frequency measurement Pulse counting occurs according to a signal s falling edge For frequency mea surement pulses are counted that occur within the gate time The result is then converted into a frequency refer also to the module tab in the Module settings area of the Main settings tab Pulse counting or frequency measurement settings apply to all digital in puts of an I O module
167. nu Method 1 Click New to create a table 2 Change the Table name if required 3 Select the required mode 4 Enter the point values The number of values to be entered will depend on the type of linearization required Mode 5 Click Save A table can be imported as well as created Import 71 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Mode chnology There is a choice of modes Offset An offset shifts the curve by a fixed value i e the given value is added to the mea surement value Offset and Gradient Allows a shifting of the curve and an increase in its gradient The example above shows the values for a temperature measurement with calibration at 0 C and 100 C Squarely Generates a quadratic curve through the given points to linearize the measured va lues Linear interpolation Enter a table for the conversion of measured values into display values Linear inter polation takes place between the given points Spline interpolation An optimal fitting polynomial 3rd degree cubic spline is determined using spline in terpolation for the given values This is then used to to convert the measured va lues Info You can use copy and paste to transfer data from an Excel table into the dialog s table Position the cursor in the table s top left field Extra rows are created automatically when this is permitted by the selected mode Click on a row and use the Del
168. o the factory setting can only be done through the web interface 5 2 4 Service This section describes e Generation of a system report The file is required only by Delphin s service and support in the event that the devi ce malfunctions e Downloading of bitmaps from a device Bitmaps are used for the graphical representation of the device in the user s PROFIBUS configuration program e Downloading the PuTTY terminal program PuTTY button 5 2 4 1 System report Provides a detailed overview of the system for fault diagnosis by Delphin Support Send the file to the Support team The system report can be generated only through the web in terface After clicking System report the device requires approximately 10 seconds to acquire all the information and record it to a ZIP file The following dialog is then displayed to select the location of the saved file The file name is made up of the current date and time and the network identifier of the device File Download Do you want to open or save this file 4 Name Message aeolus local report 120703 122239 zip Type Compressed zipped Folder From 192 168 251 239 m m Goel E Always ask before opening this type of file LogMessage 50 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin ch ology 5 2 5 System This section describes e Firmware updating using Update firmware updating of the software within the device Refer
169. o to status mo nitor The settings depend on channel type For example digital inputs only have the op tions Off and On Force default value simulation Sets the channel s output value This setting is is useful during installation to simulate certain conditions or activate system responses Do not forget to disable the option for normal operation Data reduction Not available for all channel types A signal is fed through the channel input processed within the channel and then released at the channel output The tolerance spe cifies the extent of change a signal must undergo following processing before being output In the example the processed input value is output only when it differs by more than 0 1 mA to the preceding value The Data reduction function enables prevents the device from ha ving to process store superfluous data As a software channel has no scale or valid range the tolerance value can only be specified in the channel s absolute unit of measurement Format For setting data resolution Persistence not available for all channel types The currently valid output value refer to data reduction is stored to a non volatile memory The channel uses this value following a restart or reboot This feature is particularly important for outputs to establish a predefined state following a power failure 105 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology 5 8 2 Accumulator
170. of the device using the null modem cable 2 Set your terminal program to 115200 baud transmission speed 8 data bits no parity and 1 stop bit GN1 and No handshake 3 Enter the user name root 4 Enter ifconfig 43 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology The current IP address and subnet mask settings for the device are then shown in the se cond line of the output underlined in red in the following example login root Last login Tue Apr 18 15 43 16 on console root pm is 1l ifconfig eth8 Link encap Ethernet HUaddr 00 580 C2 13 88 21 ipet adipi 122 4168 1 12315 Bcast 192 168 15 255 Mask 255 255 240 0 TICAST MTU 1500 Metri Pp Ra packets 36 errors dropped overruns frame TR packets 46 errors B dropped overruns carrier collisions txqueuelen 1888 R4 bytes 2515 42 4 KiB TX bytes 3385 3 2 KiB gt Interrupt 43 lo Link encap Local Loopback inet addr 127 80 0 1 Mask 255 6 6 6 UP LOOPBACK RUNNING MIU 16436 Metric 1 R amp packets 4 errors 6 dropped overruns frame TR packets 4 errors dropped overruns carrier collisions txqueuelen B8 R8 bytes 360 366 6 b gt TX bytes 366 366 6 b gt To change the IP address or subnet mask you must first set your PC address to an ad dress in the same segment and then connect the PC to the device via Ethernet Refer to PC Connection This section also explains how to amend the device s IP addr
171. ollowing table shows a com parison between sine and cosine definitions m D Je o a o pe 0 Sinus 210 240 270 300 330 360 deg Cosinus 120 150 180 210 240 270 deg Conversion takes place via a calculation channel using the formula PhaseOut PhaseIn 270 MOD 360 Sey Software channels X Phase In 120 00 Degrees f d Phase Out 30 00 Degrees LogMessage 230 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology 4 Active Channelname Phase Qut Unit Degrees Location Description Calculates various arithmetic operations Main settings Advanced settings Formula var0 270 360 Channel d Phase In L Manual input var 9 4 8 Monitoring The Limit software channel monitors characteristic values against threshold values Limit channels can be logically linked and given to digital outputs In the same way functions can be integrated into the monitoring such as averaging computations or time procedures Refer to the sections on software channels in the device manual 231 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology 9 5 Configuration and operation e Configuration using the DataService Configurator e Visualisation using ProfiSignal e Firmware update 9 5 1 Configuration using the DataService Configurator The DataService Configurator gives a hierarchical portrayal of a system
172. on and processing This manual is included in the delivery Always keep the manual available for reference To avoid any damage occurring to yourself or your equipment carefully follow the guidance and safety precautions given in this manual If your equipment has a problem that this ma nual does not address please contact us This manual is intended for technicians engineers or similarly qualified persons wishing to install the I O module AMDT into a device If you find errors in the product or in this docu mentation or if you have any suggestions for its improvement we welcome your feedback Contact Delphin Technology AG Lustheide 81 51427 Bergisch Gladbach Refrath Germany Telephone 49 2204 97685 0 Telefax 49 2204 97685 85 Email info delphin de Internet www delphin de Contact USA Delphin Technology Corp 4860 Cox Road Suite 2000 Glen Allen VA 23660 Virginia USA Telephone 1 804 217 8391 Telefax 1 804 747 6182 Email info delphin com Internet www delphin com 9 2 1 Included in delivery The I O module AMDT is usually pre installed with delivery of the LogMessage device Devi ces can be equipped with various I O modules An existing I O module my therefore be ex changed for an I O module AMDT Included in delivery e A device configured to individual customer requirements with pre installed or separate I O module AMDT e CD containing software e Documentation LogMessage 180 July 201
173. on is 2 max LogMessage 238 July 2012 2010 2012 Delphin Technology AG LogMessage e Delta coding Amplitude values are transmitted as absolute for minor changes or relative as differences The compression factor ranges between 2 1 and 1 1 No compres sion decompression loss e Minimum Maximum values Delphin chraloay The time signal is reduced to the local maximum or minimum More information is available in the Applications with AMDT manual in the generator air gap secti on v FFT Spectrum tab Main settings Advanced settings Mode Trigger Recording Time signal FFT Spectrum Speed meas Window function Type Compression Method Averaging Method Number of Measurements Order analysis Active Hanning none Window function Enables a weighting function for the time signal The weighting is applied prior to run ning the FFT analysis Options are Hanning recommended for high frequency precisi on or Flat Top recommended for amplitude precision Compression Frequency spectrums can be compressed prior to transmission This can reduce trans mission speed and increase storage capacity in the data logger memory Select the re quired Method e None The frequency spectrum is transmitted without compression e Log compression yu Law Amplitude values undergo logarithmic compression the compression fact equals 2 1 Amplitude error following
174. ool int float SIN Operan di ATAN Operan di ACOS Operan di Reverse trig Arctangent bool int float Functions d1 EXP Operan di Other operati Exponential bool int float ons or functi ons bool int float bool int float POW basis factor POW Operan di Operand2 Square bool int float SQRT Operan di Modulo bool int float bool int float Operandi Operand2 Absolute bool int float ABS Operan di Natural loga bool int float LN Operand1 rithm LogMessage 130 July 2012 2010 2012 Delphin Technology AG LogMessage L el Technology lation Operand1 Operand2 Logarithms bool int float LOG Operan base 10 d1 Data types bool True or false e float a floating point number or a fraction e int an integer 5 8 15 Collective fault This software channel monitors channels with boolean output signals to generate a common alarm Its output has an ON state when one of sources Monitored channels has an ON state logical OR operation Latching The alarm is latched continues to alarm even when the alarm condition is no lon ger true A reset event is then required to reset the alarm If the Latching option is not se lected the output for the batch alarm channel takes the state of the linked source Enabling Latching changes Reset trigger for latching The alarm resets when a reset event oc Curs e g a Rising edge in the given channel The Reset priority opt
175. or settings Delphin chraloay 1 Digital input 4 and digital output 4 are used internally for synchronization Both channels should be set to inactive Set Value source to Manual value for digital output 4 z5 Digital Input 1 494 Digital Input 2 um Digital Input 3 25 Digital Input 4 x Digital Qutput 1 x Digital Output 2 x Digital Output 3 x Digital Qutput 4 Off Off Off On On On 2 Manual configuration amendments to a slave require subsequent amendments to the master to avoid the handshake becoming incompatible 3 If no external Trigger signal is used the time period of master must be set higher than the natural cycle Recording time Calculation time 2 x Measured data transmit ti me to avoid the handshake becoming incompatible See timing diagram Procedure The outcome of synchronization Triggering takes place almost simultaneously Measure ment data time signal frequency spectrum are transmitted one after the other Timing diagram for the application example 2010 2012 Delphin Technology AG 203 LogMessage July 2012 LogMessage Delphin chraleay Trigger point Trigger point Recording time Recording time Master Time signal 1 of 8 Slave Time signal 1 of 4 External trigger pulse Master Trigger enabled TEM Calculation Transmit measured data Slave Trigger enabled TES Calculation Transmit measured da
176. phin fechnalogy Update firmware and reboot R234 betaS Build 8125M Do not switch off power or reboot when updating firmware The device may become unusable and has to be repaired at factory Current Firmware R234 beta5 Build 8125M Message Firmware 120702 r234 beta5 build8125M tar bz2 New Firmware file The device will reboot after the update reboot A message is displayed during loading and when a restart has been completed Update firmware R224 Build 6850 p UpdateFirmware Rev 6484 Stripping header OK Decompressing archive OK Unpacking updater OK Executing updater FirmwareUpdater Rev 6433 Unpacking archive Done Updating from R224 Build 6850 ProfiMessage Firmware 110912 r224 build6850 tar bz2 to R225 Build 6914 ProfiMessage Firmware 110920 r225 build6914 tar bz2 Checking Kernel Writing Done Verifying Done Checking RamDisk Not provided Checking U Boot Writing Done Verifying Done Stopping Services Shutting down FRoG OK Shutting down PoND OK Starting HW watchdog OK Copying files Done o System is rebooting now Please standby about one minute The process finishes about one minute later Then return to the home page Back LogMessage 52 July 2012 2010 2012 Delphin Technology AG LogMessage 5 2 5 2 Firmware changelog Delphin chraloay Click Firmware changelog to display a PDF file containing i
177. ptions 5 8 13 Pulse width modulation PWM This software channel generates a square signal with a variable frequency and variable pul se pause ratio The pulse pause ratio is determined by the source Frequency period Enter either a fixed frequency time for the period of the base wave or name a channel that provides the appropriate value Lower Upper limit Set here the minimum and maximum values for the pulse pause ratio A pulse pause ratio of 0 means that the PWM output is permanently switched off A pul se pause ratio of 100 means that the PWM output is permanently switched on The range of source values is limited to the specified range 127 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay 5 8 14 Calculation channel This software performs the mathematical formula that has been input Any number of sources can be linked within the formula Each source is represented by a variable that can assume either a constant value or the value from the specified channel Method 1 Set the required variables with Add Variable A variable named Var0 is created by default but its name can be changed 2 Set whether the variable is to have a constant value Manual input or whether the va lue is to be obtained from a channel Channel 3 Enter the formula expression in the Formula field Restrictions on variable names 1 The first character must be alphabetic The digits 0 9 are pe
178. range number of lines and frequency resolution can be set e Standard window functions Hanning Flat Top etc optional e Data compression available for for data recording and transmission Scaling Each FFT spectrum channel can be individually scaled Scaling takes place in the required unit e g 100 um for displacement sensors or 50 g for acceleration sensors Application Analysis of characteristic frequencies and their amplitudes for a measured vibration signal 9 4 5 Characteristics Any acquired vibration signal is initially saved to a buffer within the I O module Options are available to then perform an FFT analysis or to compute a frequency spectrum It is then possible to calculate various characteristic from the vibration signal and or the frequency spectrum One or more additional characteristic channels are available for each analog input channel These then deliver characteristic values e g root mean square a spectrum s peak ampli tude etc 209 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin echnology Properties e 1 to 30 characteristic value channels can be separately set up created for each analog input e Simple configuration using selection lists e Automatic assigning to source channel Characteristic values Characteristic value Ty pe Peak to peak value Difference between maximum and minimum T Mean value T or DC component T T 4 Frequency of the m
179. ransmitted irre spective of whether the corresponding channels have been created and are active Simulation To enable signal simulation Refer also to signal simulation 235 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Triggering tab Delphin chnoloay Main settings Advanced settings Mode Trigger Recording l Time signal FFT Spectrum Speed meas Source Trigger source Time period Trigger period 1000 Mode Level 3 Edge Start Stop Trigger Active ms No channel 0 00 Polarity 3 Positive Negative Trigger source A trigger event starts recording i e signal acquisition Select from four trigger source options e Time period The I O module s internal time counter is used to generate periodical trigger events e Analog input The trigger source is one of the I O module s eight analog inputs e Digital input The trigger source is one of the module s four digital inputs e Master The trigger source is a second I O module AMDT Refer to synchronizing a se cond AMDT Trigger channel Selects the triggering channel This is always one of the I O module s own channels Trigger period To set a time period between two trigger events in the 1 ms 60 s range Note A short time period can extend the actual period when the total time is greater for recording evaluation and data transmission Trigger thre
180. responds to a sine definition associated with a trigger point Conversion to a cosine definition is explained below The following example has two signals Two signal periods are acquired Signal 1 has a pha se angle of 0 deg Signal 2 has a phase ange of 90 deg Mark 3 shows the trigger point 10000 000 5000 0004 0 0004 5000 000 10000 000 AE i n 0 000 ms 471 098 ms 942 196 ms Measurement accuracy Measurement accuracy is determined by acquisition of the f basic frequency via the digital frequency input Select the settings Sampling frequency and Number of samples to enable acquisition of more than one but less than ten signal periods in a time signal block This achieves an accuracy of 1 5 degrees for the phase angle The following table is for a frequency spectrum with 2048 and 4096 lines 229 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology The rule of thumb for a measurement deviation of 5 degrees 4 n f 1 10 mit fn Main frequency of input signal f Sample rate n Number of points Examples Sample rate 2560 Hz 2560 Hz 1280 Hz Number of samples 2048 4096 4096 Input signal range for a measu 1 25 to 25 Hz 0 625 to 12 5 Hz 0 3125 to 6 25 Hz rement accuracy of 5 degrees Converting a sine definition to a cosine definition The phase angle is given in the range 0 360 degrees The f
181. rformed and a dialog displayed with the found device or devices 4 Double click the the address of the required device If no device is found use the General tab to manually enter the address Change the port only when the Windows firewall is not being used and or other ports have been configured within the firewall ProfiMessage connection settings e General Found devices Host Port 132 168 7 21 1033 X Connect D Manually D Automatically all data Always Autom only stored data Cancel Help 5 Confirm the settings with Connect Always default Connection is then automatic when starting the DataService Configurator A successful connection is then displayed with an IP address and a status The Da taService record displays the host name or the address of the PC LogMessage 12 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin 3 4 chraloay Basic settings The DataService Configurator dialog is split enabling a device to be selected on the left un der Connections and settings to be made on the right under Channels T DataService Configurator c beda View Options Help E ons Channels Database Alerting Scheduler User management Connections Channels Database Alerting Scheduler User management a E Channel SSC Value Se EE Ill E DataService ID 3469 Win _32BitvM Yes Online ss
182. rmines finds largest amplitude within the frequency spectrum and delivers the frequency of this line A f LogMessage 214 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology 9 4 5 6 Characteristic Main amplitude The DSP determines finds the highest amplitude in the frequency spectrum and delivers of the amplitude for this line A f 9 4 5 7 Characteristic Phase of main amplitude Phase angle measurement is useful only for low frequencies rotations The computation procedure see below shows why Further information on phase angle definition and on measurement precision etc is available un der measuring the phase angle This characteristic value can be determined only when a cyclical digital pulse is connected to a digital input counter e g the square wave pulse of a rotating shaft This signal delivers a stable base frequency f as well as a phase reference or trigger signal The DSP normalizes the time signal internally hidden to an integral multiple of the basic frequency f A t Trigger signal 215 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay Using the frequency spectrum associated with the line index f the DSP determines the li ne vibration component s phase angle 0 360 A f Measured main frequency 9 4 5 8 Characteristic Amplitude of 1X 2X 3X xX component This characteristic value can be determin
183. rmitted within or at the end of the name 2 Variable names must be unique no repeat names in different channels 3 A distinction is made between upper and lower case letters Input in the formula field must use the same variable names otherwise the formula is invalid v Example Main settings Advanced settings Formula pressure pressure2 100 Offset pressurel e saree t Analog Input 03 AAST P F Inherite state inpul pressure2 gt ae Analog Input 04 AAST X P F Inherite state x x x lOffset Channel 1000 Inherite state 9 Manual input Add Variable The example calculates the difference between two channels divides the result by 100 and adds an offset Input for the formula field e Operand1 operator operand2 e g pressure 1 pressure2 e Operator operand e g DigIO1 e Function operand e g sin pressure e Function operandi operand2 e g pow pressure 2 LogMessage 128 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology v Available calculation functions lation Operand1 Operand2 Basic calculati Addition bool int float bool int float Operandi ons Operand2 Subtraction bool int float bool int float Operandi Operand2 Multiplication bool int float bool int float Operandi Operand2 Division bool int float bool int float Operandi Operand2 ND bool int float bool int float Operandi amp amp Operand2 bool int float bool
184. rrrerrrre 85 Thermocouple sensor type sssseeeeeeeesee nennen 87 Ph probe sensor CYP sce cece eee e eee eee ee 88 Digital input with counter frequency measurement ssss 89 Digital inpuEssidutus doe exert es emer p en E RR ERROR E o RUDI CU QUEE th 91 Analog GUUDUL is cias exce ex eur nep ox x xau eis AAEN ERR RYYXRRPAEFEXKXMEYM DAAE 92 Digital OUtDUE tii ica vice Fons exa adie stv nU ra or RR RR Raw IRR RO RR us 93 Configuring interfaces esssseeeeeeeessesee enun hann a annua nnn 94 CAN Controller try 3Rppt re aa Yrrr Y xREhRErEERRRR RAND RR NU KNEE RR RENS 94 CAN pu RP EE 96 CAN Bus Charitiel i nrnna E yen pcc ENERET ESAE ERASAN ENARE TSAA 96 Configuring Software channels eese ense nnn nnns 101 General settings for Software Channels cscseeeeeeeeeeeeeeeeeeaes 102 channelgroups visexsxsavvx xao eles suas went gw ra EEANN AA Day VY vas 102 Edge and level triggers cesses nnn 102 Basic channel selection sssssseeesseee nnn 103 Advanced channel Selection ccceeeecceeee eee eeneeee eee nnne 103 Inlherit Stats oes see Sex Packie eT ae eevee Nu hei RR 104 Advanced settings tab software channels 105 ACCUMULO 222 rer i ppiii vx 3 aga Aia Er aE aeiaai Yi 106 Operating hours COUnter cri esie ehe ee ew e E Rae ec dar 106 DifferentiabOE ice rina iL Er eiA c v
185. s Data type Integer Bit length 16 Encoding type Binary Signed Byte pattern Byte order BiaEndian ord order BigEndian Hex value 01 23 Presentation 01 23 Startposition within reference data Byte offset 4 Maximum value 6 Byte Bitoffset 10 Bit offset not available CAN ID F ExtendediD Standard 11 bit ID 300 Mask 7FF V Scaling Input value Scale value Min 0 00 0 00 Max 4800 00 300 00 HE Use channel as output Manual value 0 Previous Next X Cancel 7 Help Last change 06 04 2012 15 07 29 134 Main settings tab Data type settings e Data type Specifies the data type for interpreting the payload data Bit length Byte order and Word order are set and adjusted depending on the data type input Startposition within reference data Scaling and Use channel as output are also set accor ding to data type e Signed Sets whether the integer data type is to be interpreted as signed or unsigned An 8 bit value would then be in the range 128 to 127 2 s complement or 0 to 255 Floating values are always interpreted as signed Bit values make no dis tinction between signed and unsigned e Bit length Sets the bit lengths for integer and floating data types Byte order and Word order are adjusted according to length value This also applies to the numeric fields in Startposition within reference data 97 LogMessage 2010 2012 Delphin Technology AG July 2012 LogM
186. s mV ma outputs mV mA Digital inputs frequency measure 24 28 UU NN CON Digital inputs mv inputs mV Sampling rate in measurements per 10000 eee Galvanic isolation AI to AI Galvanic isolation Al to AT VDC V DC Module 2 4 ADIT IOIT IOIT ADGT Types LM 6000 7000 8000 9000 ET iae inputs mV mA Thermo ET iae Analog inputs mV mA Thermo oc a Pt100 0 Analog outputs mV ma outputs mV mA Digital inputs frequency measure 12 pou A Digital inputs mV inputs mV Sampling rate in measurements per 1200 1200 1200 second 15 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology 4 2 Power supply Input voltage 12 28 VAC 10 12 36 V DC 10 Info e3 If the device is equipped with the AMDT I O module the input voltage is 18 Vac DC Power input Pmax 10 W Pin assignment m uem oem m Left 24V Power supply Right Protective Earth refer to ear thing LogMessage 16 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chralcay 4 3 LED lamps LAN USB Right Off Not connected MEET transferred ewm twm OO EN Lee tering tm OO O 17 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chralogy 4 4 General LEDs Power Ext Bus status can Q moa 1 Battery mod 2 mem LED descriptions Com Number Description
187. s 100 V Analog outputs Output range is 0 to 10 V max load is 4 mA min 2 5 kQ The connector is connected at 1 kQ to the internal analog ground point Digital inputs counters Square signals pulses from 5 V 12 V or 24 V can be connected Low level is 1 5 V high level is 3 5V common connector potential isolation Frequency measurement for signals from 0 2 Hz to 30 kHz Digital outputs Switching voltage at a max of 50 V c Switching current at a max 2 5 Apc Common connector Potential isolation LogMessage 184 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay Shielded cabling The I O module enables measurement in the signal range DC to 8 kHz This requires the use of shielded single sided shielding connected to protective earth or twisted pair cables Sensors Information on connecting special sensors are available in the manual Applications with AMDT 9 3 2 Connector panel laboratory 8 Ch9 Ch140 Ch114 Ch142 Ch11 14 Ch15 18 Ch15 Ch16 Ch1 Ch2 Ch3 Ch4 Ch5 Ch6 Ch7 Ch Out Out In In In Out Out Out O 0000 00 Out Out In In In Out Out Out Analog Input Ch13 Chi4 Ch11 14 Ch15 18 Ch17 Ch18 AMDT L Information on connections Refer to connector panel industry 185 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology 9 3 3 Block circuit diagram Block circuit diagram for har
188. s and the cable length bet ween the devices For longer lines a lower baud rate should be selected to achieve error free communi cation The following are guidelines for CAN interfaces e from 15 m 1000 kBaud factory device e up to 30 m 500 kBaud e up to 45 m 333 3 kBaud e up to 60 m 250 kBaud e up to 150 m 100 kBaud The baud rate must be the same for transmission and reception Therefore first determine the baud rate for the equipment to be communicated to and use this value to set the CAN interface s baud rate In brackets are noted the procotols which implement that baud rate CiA CAN in Auto mation DCP Delphin CAN Protocol Extended ID A CAN system identifies data not by device addresses but by identifiers within a message The CAN specification defines identifiers at either 11 or 29 bits in length The setting deter mines which identifier length is being used When enabled this interface can be used with either an 11 bit or 29 bit CAN 2 0B identi fier When not enabled data transmission on the CAN bus is limited to an 11 bit identifier CAN 2 0A and no other amendments can be made via CAN Bus Channels Refer to Pin assignment of COM interfaces 95 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology 5 7 1 1 CAN Driver Create a CAN Driver via the CAN Controller context menu Create channel CAN Driver RAW Properties Ini 1 zx Create channel g
189. s averages from the source values Simple moving average This average is calculated from a configured series of values numbe ring from 2 to 1000 values Moving indicates that each new value from the source is stored to the data series trigge ring calculation of the average from the accumulated values and outputting the result If the number of values reaches the specified maximum the data series is then full and a new value from the source then overwrites the oldest value A device reboot or a configuration change deletes all the accumulated values Block averaging This option provides two methods of averaging e Arithmetic mean The arithmetic mean also called the average is the sum of all values of a data series divided by the number of values e Vector average A vector average is the average for a unit circle The method is used for example for mass flow rates in air conditioning engineering Edge triggering The configured average type is calculated at the time of the trigger event for the data series that has accumulated between two trigger events The result is output following calculation Level triggering When a level moves from an active to inactive state the average is calcu lated from the values accumulated during the active level period Generate intermediate values When enabled the averages between trigger events are output immediately after calculation after each new source value Refer also to Trigger o
190. s for any 1024 samples 9 4 1 2 Continuous recording The the I O module runs continuously in this operating mode Recording evaluation and measurement data transmission take place by the DSP continuously and simultaneously The max sampling frequency depends on the amount of measurement data that is to be si multaneously transmitted The sampling frequency is typically 1 kHz parallel on 8 analog in puts with simultaneous transmission of time signals and some characteristic values Trigger point Start Trigger point Stop A Input signal j gt Measurement data Timesignal Measurement data FFT Spectrum e b Measurement data Peak to peak value Measurement data Main amplitude gee The above graphic represents the generation of measurement data associated with com mon triggers The transmission of the measurement data is time delayed The maximum sampling frequency is limited to max 10000 samples s of continuous measu rement data transmission and to the performance of the DSP Depending on the user con figuration the following rates can be achieved Transmitted measurement data No of parallel or active channels Time si FFT Spectrum2 Characteristic va 4 2 gnal 195 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chraleay Transmitted measurement data No of parallel or active channels 1 Time
191. s in a device via the DataService Configurator or automated control via a ProfiSi gnal application Signal flow is via a variable channel from the DataService Configurator or a ProfiSignal app lication in the direction of the device Using channel variables differs to analog or digital outputs or COM channels set to outputs in that access is to the device itself and not just to the connected process The generated variable is configured as a source for the controlling channel e g as a reset trigger for a counter channel Application This option enables variable control via the DataService Configurator or ProfiSi gnal Set the variable to a constant value via the Variable s context menu in the DataSer vice Configuratoror automatically control the value via ProfiSignal fis PWM Channel group Channelgi Quelle 0 00 Ok Variable e fij Setpoint Channel group Channelgt X Va 200 Ok Variable Properties USB Master USB Cont Delete channel Configuration L4 Store channel in Set value b 0 0 Create dependent channel 10 Value x Manual value This option sets a constant value for the variable This setting is useful during installation to test specific devices or activate system responses Do not forget to disable the option for normal operation LogMessage 126 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology 5 8 12 Average This software channel calculate
192. s long as the level is High Low Level The event is triggered when and for as long as the level is Low LogMessage 102 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology 5 8 1 3 Basic channel selection Many dialog require a channel to be selected as a source or a target A basic or advanced channel selection is available Basic channel selection is accessed directly from the configuration dialog All configured channels are listed by clicking the arrow on the dropdown list Reference Junction COM1 COM2 COM3 COM4 Counter 20 Counter 21 CPU load DCP Digital Input 11 Digital Input 12 Digital Input 13 Digital Input 14 Digital Output 13 Digital Output 15 Digital Output 16 Digital Output 17 Digital Output 18 Ext BUS Memory Click the required channel If the channel name is known it can be input fromthe keyboard The list then filters accor ding to each letter typed 5 8 1 4 Advanced channel selection Info e3 The advanced channel selection is not yet available for Windows Vista and Windows This method of display and selection is more convenient for large numbers of configured channels because the advanced filtering function enables only specific channels to be dis played 103 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology Open the dialogue box by clicking Al The channels are displayed by
193. s va lue and the previous value The result is added to running total Time unit for source The calculated values are scaled to the source s time unit e g in l min for liters per minute enter 60 seconds Reset The calculated integral is output only in a reset event and then reset internally to zero Refer also to Trigger options Generate intermediate values When enabled totals are also output between reset events di rectly following their calculation without being reset to zero 5 8 9 Linearization Linearization enables an additional conversion to be performed on a channel s values An advantage of this feature is that the channel s original values remain available with the conversion being performed in a new channel The available options are identical to those for sensor compensation which can also be performed here in addition to the required linearization This dialog enables either the set ting of only a conversion function for the channel Table type Local table or the use of a global linearization function Global table which has been set up via the Global linearisation table option in the device s context menu See also Tables Global linearisation tables Settings for all dialogs sensor compensation tab Method 1 Select a table type For external tables then select a table for an internal table set up a table via the Table tab that is then displayed 2 Select a source 3 Set up a table if
194. sage Delphin chology 5 8 23 Alarmclock This software channel allows the triggering of specific events at specified times Depending on the configuration an alarm clock channel can generate one off or repeat alarms for the specified duration Active fields for Alam settings depend on the repetition settings Once Hourly Daily Weekly Monthly or Yearly Enter in the times in each active field The alarm clock response is then described in the text box above these fields In an alarm the alarm clock s output channel switches to an active state On Alarm duration s Enter either a constant value Manual value or use Channel to select a channel whose value determines the alarm duration as a time in seconds Reset A reset event a trigger via Level or Edge ends the alarm duration and sets the alarm clock output in a non active state Off Alarm clock settings are not changed by a reset i e a follow up alarm may trigger during the configured time Refer also to Trigger options 145 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnoloay 5 8 24 Counter This software channel counts events Count up trigger The channel s counter is increased by one at the selected edge Rising edge Falling edge or Edge both Count down trigger The channel s counter is decreased by one at the selected edge Rising edge Falling edge or Edge both Reset trigger The channel s counter is outp
195. sas u uua a ann 180 Included iri delivery i i eek roro rkh rin aaa yr eRR ri RR Ga a ag Pu aa uiis 180 Symbols used in this documentation cece cece eee eee ee settee eenaeeees 181 Project planning itech scieaddes xk veal e er Re AAA RAELA AANA AATAL duns 182 Hardware uv ccccceeeeeeeeeeee eee eeeeee eee seen 184 Connector panel iNdustrial ccccecesecseeee ee seeeeeeeeesseseeeeeeteaees 184 Connector panel laboratory csse 185 Block Circuit diagrarnu cias cte vk rr roa rh xat n x ea RR n xa dace 186 Technical specifications sssseeeeeseeseee nennen nennen 187 Galvanic isolation sssssssseeeessssse nnm 187 Analog Inputs csi eset ey xs oe aane ER RE rad ne Ya CU ani 187 Analog Outputs i sont pauca ERR rasch ERR Rd redeas aad E Yt 188 Digital inputs cess ke rr ERR X XEERRRRERRRKRERR ARX ENAR RR REM 189 COURELGE cicisiestenes ee REIR RE RERRRTERRXYREXRRIYRRRRRRRRARPZRTERERARREREPEARA 189 Digital Outputs ioo exce eren anteriores er c nena RR 190 Attachment sss eireegersk p pire v iE R AAEE AERALA 191 LogMessage III July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology AC coupling for analog inputs esses 191 External CICUits ooi eterne re Rex x WEE RE RENE RB iris 192 Functions sssseerresissssesen eaa eee 194 Operatitg trode iste cen elk RR TR ne eR NE ERE QUAERERE M eee 194 Non Continuous recording
196. se COM4 is set internally as an interface for support service purposes and therefore initially unavailable for use If COM4 is required as an additional port contact Delphin s support team Configuring the CAN bus CAN Controller e CAN Driver e CAN Bus Channel Refer also to settings for all dialogs 5 7 1 CAN Controller Follow these steps to run a device via the CAN interface 1 Configuring the basic settings of the CAN Controller this section 2 Creating a CAN Driver CAN Driver 3 Create one or more CAN Bus Channels The CAN interface is displayed in the Channels tab with the CAN symbol Gin The CAN in terfaces are available in the Hardware defined view under the interface entry The User de fined view lists all CAN interfaces directly below the device as long as the user has not al ready moved the modules or channels LogMessage 94 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology Double click a CAN entry or select Properties from the context menu to display the configu ration dialog Set the baud rate and the length of the identifier in the Main settings tab We recommend a unique Channelname If required amend Description and enter a Location Main settings tab Main settings Baudrate 1000 0 kBaud Ci amp DCP Baudrate The baud rate states the number of characters transferred per second via the interface Selection depends on the properties of the connected device
197. seenene nean annnm ua nuum uuu u uan uu uua 16 LED lamps LAN USB ener nnne nnne nnnm nnnm nnnm nnnm 17 General LEDS eeesissseeeereiesssenee na eee 18 COM interfaces CAN icossoc ecesdouzezuszsuzccucecrwarantUEenkEERE TNR ERUERSTE 20 I O module connections terminal blocks esse 23 I O module installation and removal nennen 28 Internal memory card installation and upgrade 32 Internal battery installation eee essen rennen nmn 36 5 Configuration and operation 1ceeeeeeee eese enne 40 Overview rissssseseenuaaaseeeeeeaaaasunueea ee 41 Configuration via an internet browser eee esee nn nnne 43 Unknown IP address visi isse rera rex EE a ER ued abhi 43 si uderte c EET 44 WR c or ei aanp ieni a iara ENA 44 Clock Setting Sisiane tennan exitio INESE ERR RR 46 NIP StAGUS Gminna nin i ex RE wean raa ad a ina Aai 47 Senei a a T A T E E T 47 View chantiels cette nonet EErEE ka Rb prac a RU EERO E 48 Saving and loading configurations sese 48 Default configuration i s essa esee ky rendue er Rhen ax a e cr ads 49 SII ERBMBIBREDETIDUIDTDIDMSPST 50 System NE POM aia exeunt enn OUO Mc OG R RR RR GRON UC TRU TRE RER OR nce RR AR 50 ile M RM 51 Update firmware eerte m s ix Seb ea EEEREN x Exec
198. shold For analog input triggering sets the threshold value at 0 100 of the input measu ring range LogMessage July 2012 236 2010 2012 Delphin Technology AG LogMessage Delphin chraloay Pre Trigger This option is available only for the Non continuous operating mode For triggering via analog input or digital input sets the amount of signal pre history as 0 100 of recording depth i e signal length Mode and polarity Sets the type of triggering Analog input With over run or under run of the threshold limit value Digital input With logical 1 or logical 0 Start Stop trigger and number of trigger pulses This option is available only for the Non continuous operating mode This option dynamically controls the recording signal length for analog or digital input triggering Refer to triggering and recording v Recording tab Used analog inputs 8 X Sampling Oversampling factor 8 Sample rate 2560 Hz Number of samples 2048 Recording time 800 ms Frequency range 1000 Hz Number of lines 800 Frequency resolution 125 Hz Used analog inputs Operation can reduce the number of analog inputs from 8 to 4 2 1 This reduces the time for evaluation and for measurement data transmission or increases the trigger ra te Some functions are available only for settings of x4 channels Refer also to project planning This is setting takes priority over the analog inputs marked as Activ
199. signal And then delivers the amplitude value Minimum value The DSP determines finds the minimum value or most nagative value of the time signal And then delivers the amplitude value 211 LogMessage 2010 2012 Delphin Technology AG July 2012 Delphin chnoloay Smooth curve Eliminate glitches It might be necessary to smooth curves prior to determining characteristic values when noise or distortions occur within the periodic signals The appropriate settings are available in the Options tab zb 2calntgg 10000 10000 10000 10000 F Smooth curve Eliminate glitches 9 4 5 2 Characteristic Peak to peak value The DSP calculates the peak to peak value of the time signal i e the difference between the most positive and most negative amplitude values OptionsSmooth curve Eliminate glitches It might be necessary to smooth curves prior to determining characteristic values when noise or distortions occur within the periodic signals The appropriate settings are available in the Options tab LogMessage 212 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology Main settings Advanced settings Scaling Measuring value Scale value Min 10000 mv 10000 mV Max 10000 m 10000 mV E Smooth curve E Eliminate glitches 9 4 5 3 Characteristic Mean value The DSP calculates the arithmetical average of t
200. signal block each with 1024 samples 2 FFT with 1024 samples or 400 lines 3 3 characteristic values from the time range and 3 characteristic values from the frequency ran ge 9 4 1 3 Signal simulation In signal simulation the signals measured by analog input 1 8 are discarded and replaced by demo signals computed by the DSP This operating mode enables users to perform test runs without having to actually connect signals A choice of signals and modulation types are available Signal 1 Description Harmonic signal Channel 1 8 Sinus 1000 mVpp 50 Hz Time signal and frequency spectrum 200 0 400 0 Hz Signal 2 Description Signal with three frequency components Channel 1 Sinus with 3 components 1000 mVpp 100 Hz 200 mVpp 200 Hz 40 mVpp 300 Hz Channel 2 8 with 2 8 times amplitude Time signal and frequency spectrum LogMessage 196 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin echnoloay Signal 3 Description Signals with paired phase shifts Channel 1 3 5 7 Sinus 1000 mVpp 50 Hz 0 Channel 2 4 6 8 Sinus 500 mVpp 50 Hz 90 Time signal Signal 4 Description Signal with transient progression Channel 1 8 Sinus emerging fading 1000 mVpp 50 Hz Time signal Signal 5 Description Signals with increasing phase shift Channel 1 Sinus 1000 mVpp 10 Hz 45 Channel 2 8 with phase 90 360 and 2 8 times amplit
201. signal can also be eliminated through a SW filter i e through a DSP Scaling sensor compensation Channels can be individually scaled Scaling takes place in the required unit e g 100 um for displacment sensors or 50 g for acceleration sensors Zero offset correction and am plification correction can be performed using sensor correction Anti Alias Filter SW The SW Anti Alias Filter s frequency limit is set automatically at 40 9o of the sampling fre quency setting This filter is optional It is a digital deep pass of the 8th to 4th order with Butterworth characteristic Application Analog inputs deliver continuous or event triggered recording of vibration wave signals or of signals requiring rapid sampling 9 3 4 3 Analog outputs Properties 2 analog outputs Voltage range of 0 to 10 V Resolution of 12 bit and or 2 4 mV Board V2 0 x Output range restricted to 0 3 V to 9 7 V Board V2 1 x Output range is O to 10 V Max load of 4 mA at min 2 5 kQ Refresh rate Determined by source channel e g set point channel Typical rates are 0 10 Hz Dependent on DSP load LogMessage 188 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology Accuracy DC accuracy is factory set using calibration and adjustment Basic precision is 0 25 of the output range i e 25 mV Scaling Channels can be individually scaled Scaling takes place in the required unit e g 0 to 100 um for d
202. t Ju LogMessage 162 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology 7 5 ESD protection The ADGT 3 0 module has an earth terminal specifically for ESD protection ESD E lectro S tatic D ischarge of the inputs Analog Input PE Klemme Power Connect this with the PE labelled terminal 33 via a 2 2 5 mm cable to the protective earth of your power supply Refer also to earthing The other modules do not have ESD protection Therefore discharge sta tic before coming into contact with the I O modules Simply touch a hou sing with protective earth the earth contact of the mains socket or a ra diator or water pipe Modules can be damaged if static is not discharged 163 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology 7 6 Potential differences Potential differences can in principle always occur between reference potentials of multi ple sensor signals that are connected to the analog inputs of a I O module The following figure shows the sensor signals as green arrows and U and the potential difference between the two sensor signals as an orange arrow and Up ig ence sensor 1 l O Modules M Umess Ubitrerence EN sensor 2 The reference potential of a measurement circuit of an analog input for a device occurs by a change of channel of the sensors different reference pot
203. t CAN Driver RAW Ly The symbol is then displayed for the CAN driver Double click the CAN driver or select Properties from the context menu to display the confi guration dialog Use the dialog to enter a name location and description for the CAN Dri ver 5 7 1 2 CAN Bus Channel A CAN Bus Channel is displayed with the symbol Gin CAN Bus Channels are available on ly when a CAN interface and CAN Driver have been configured To create additional chan nels select Create channel CAN Bus Channel from the CAN Driver context menu 9B CAN Protocol RAW 5 gam CAN Ok B Properties ok E Delete channel lok a Configuration Ass Create channel gt CAN Bus Channel L A k a Create several channels Ok DEP Ok Double click a CAN Bus Channel entry or select Properties from the context menu to display the configuration dialog The data to be entered depends on the type signal that is to be sent to or received from the CAN Bus User Therefore obtain information on the format and settings of the signal before entering data here LogMessage 96 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology Channel settings CAN Bus Channel Wheel speed RL ProfiMessage SN41030570 eal 7 Active Channelname Wheel speed RL Unit Location Description Wheel speed rear left Main settings Advanced settings Sensor correction Datatype Setting
204. t 100 26 0 625 m lt 100 4 26 0 625 k 21552 m x 164 8 k 156 m 164 n 164 156 1 9 LogMessage 224 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay 9 4 5 16 Characteristic Sum value The DSP determines calculates a weighted sum for all lines of a frequency spectrum with x Amplitude of line i of frequency spectrum n Number of lines in frequency spectrum y Sum value A f 1 1 f fn 2fn 3fn Gemessene Grund Frequenz Info e3 For a single ideal line sine wave there is agreement between Sum value and True RMS value 9 4 5 17 Characteristic Remainder value The DSP determines calculates a weighted sum of all quadratic lines of the a frequency spectrum excluding the three harmonic components and when applicable a component of choice This characteristic value can be determined only when a cyclical digital pulse is connected to a digital input counter e g the square wave pulse of a rotating shaft This signal delivers a stable base frequency f 225 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology l n l ju A k l IHH m 4l po JI e A a c Xx x with x Amplitude of line i of frequency spectrum n Number of lines of frequency spectrum j k Index of line of f 2f 3f m Index of line of xf y Remainder value A f Band 1 e e Info Acquisition of an accura
205. t Windows Vista Windows 7 and Windows Server 2008 R2 in the 32 bit or 64 bit versions either the English or German versions Main memory At least 1024 MB Recommended 2 3 GB for 32 bit systems 4 8 GB for 64 bit systems Monitor At least 1024 x 768 pixel fixed font size of 96 dpi 100 resolution CPU A PC with at least 1 6 GHz Recommended Systems with dual or 4 core processors from 2 5 GHz or greater Hard disk for ProfiSignal Go at least 70 MB of free hard disk space for ProfiSignal Viewer at least 70 MB of free hard disk space for ProfiSignal Klicks at least 500 MB of free hard disk space for other ProfiSignal versions at least 250 MB of free hard disk space 5 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology 2 3 Symbols used in this documentation To make reading of this manual easier we have used the following symbols This symbol warns of a potential hazard which if the safety requirements are not followed may be fatal or cause serious physical injury Indicates important information Info e3 Refers to a special option or explains a special feature We use italics to highlight individual words within the text Keyboard input is highlighted in this way Program menus have a grey background with arrows indicating the respective sub menus which need to be accessed Connect Add driver connection LogMessage device Also highlighted in grey and
206. t the unit from the mains voltage supply 2 Remove all plug in connectors from the device front When replacing one module with a similar module leave the cables attached to the terminal blocks 3 Unscrew the four locking screws at the ends of the two terminal blocks until a dis tinct cracking sound is heard The screws have retaining rings to prevent their complete removal 4 Pull the two terminal blocks towards the front Prise off if necessary using a flat screw at the sides between the terminal block and housing front see image LogMessage 28 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology 5 Use a screwdriver to lightly press the two retaining lugs at the housing sides and le ver towards the front 6 Carefully pull the module circuit board from the slots in the board Be careful not to bend any pins 29 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology Installation Follow the above procedures in reverse order but taking the following into account e The side of the I O module with components must point towards the internal circuit board e Check that all connector pins fit into the sockets of the inner board and that the boards are aligned in parallel e Make sure that the boards keep within the side slots when installing them onto the base board LogMessage 30 July 2012 2010 2012 Delphin Technology AG LogMessage D
207. ta Synchronous trigger Start of recording aquisition Start of evaluation FFT analysis calculation of characteristics etc Master transmits measured data time signal frequency spectrum Slave transmits measured data time signal frequencyspectrum Master and Slave ara readv for next triaaer ahwbd 9 4 2 Triggering and recording Properties Software trigger vie time interval periodic within the range 1ms 60s Hardware trigger via analog input or digital input Trigger threshold edge polarization adjustable Non continuous recording at a sampling frequency in the range 256 Hz 20480 Hz for 1 to 8 channels Continuous recording at a sampling frequency in the range 256 Hz 1024 2048 4096 Hz for 8 4 2 channels Recording depth of max 8192 or 4096 samples for each channel max 8 synchronous channels Pre trigger in the range 0 100 of recording depth Start stop trigger function for externally determined recording depth Hardware trigger operating mode The trigger signal is preferably received from one of the four digital inputs One of the eight analog channels may alternatively be used with a preset threshold LogMessage 204 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chology Trigger time i Pre selected recording time A Input signal analog A i Trigger signal 3 digital gt A Input signal analog Number of l trigger
208. taService Configuratoror automatically set via a ProfiSignal application Invert This option inverts the High level for the channel in the OFF state No current flow between the two output terminals at the output and vice versa 93 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin echnology 5 7 Configuring interfaces A device is equipped with multiple interfaces to enable communication with external devi ces These interfaces enable connection to other PCs PLCs or other third party equipment for data import or export The Ethernet and USB interface require no configuration and therefore have no configurati on dialog Configuration of the CAN bus and COM interfaces as well as for I O modules ta kes place directly from the channel view of the DataService Configurator and is described in this section The device has one CAN bus and four COM ports which are available as two D SUB DB9 socket connectors and one D SUB DB9 plug connector refer also to display devices and connections Using the left D SUB connector as a COM1 and CAN connection is possible via a special connector available from Delphin e COM1 is a RS485 port and can operate in UART mode e COM2 has the same properties as COM1 e CONG is a limited 3 wire RS232 port in UART mode e COM4 is a full RS232 port in UART mode Info The DataService Configurator displays a hardware error following the acti vation of the COM4 port becau
209. te fn via the frequency input is essential as is the highest possible resolution for the frequency spectrum In the event of devia tions between the measured frequency and frequency spectrum s line index evaluation then takes place of the next line The three harmonic components and the components of choice can be processed as requi red These components are each calculated using three lines in the above formula Settings are 1 3 5 lines Below is the corresponding configuration dialog Main settings tab LogMessage 226 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay Main settings Advanced settings Scaling 10000 10000 10000 10000 v Subtract part of 1X 2X 3X harmonic Subtract part of harmonic 4 zi With of harmonics as lines 3 E The characteristic value can not be generated without an rotation pulse The DataService Configurator then displays an error Be Ho Analog Input 1 UL Analog Input 1 FftSpectrum DSP A Analog Input 1 MeanVal pr Analog Input 1 PeakPeakVal e Analog Input 1 RemainderVal 9 4 6 Measuring frequency or speed Measuring of frequency or rotation speed of rotating equipment provides the determining of speed as additional information for the frequency spectrum Properties Frequency measurement via 2 free running counters 16 bit e Connected to digital input 1 2 e Signal frequency of 0 2 Hz to 30 kHz e Frequency measur
210. th a Amplitude of point i first channel b Amplitude of point i second channel x Product of point i l n i J FF x N i 0 with x Amplitude product of point i n Number of points y Mean value Info For the Electrical power measuring application this characteristic value corresponds to the P unit of measurement active power for current and voltage input values LogMessage 220 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin echnoloay 9 4 5 13 Characteristic Frequency of main amplitude band 1 2 3 The DSP determines finds main amplitude within a small frequency band from the fre quency spectrum and delivers the frequency of this line The frequency band is determined by middle of band f and band width f The frequency band can be fixed or adapted to speed A f Band 1 Refer also to amplitude of maximum line band1 2 3 9 4 5 14 Characteristic Main amplitude band 1 2 3 The DSP determines finds the main amplitude within a small frequency band from the frequency spectrum and delivers the amplitude of this line The frequency band is determi ned by band middle f and band width f The frequency band can be fixed or adapted to rotations This characteristic value can be determined only when a cyclical digital pulse is connected to a digital input counter e g the square wave pulse of a rotating shaft This signal delivers a stable base freq
211. transmits a frequency spectrum as measurement data following each triggering Unrequired channels should be deactivated Scaling The FFT spectrum channel is derived from one of the analog input channels and therefore inherits its scaling The effective scaling is grayed out here LogMessage 246 July 2012 2010 2012 Delphin Technology AG LogMessage 9 5 1 5 Configuration settings for characteristics Delphin chralcay To add a characteristic value click on the source analog input and right click to display the required context menu refer to image below To delete use the channel s context menu Configuration Store channel in FFT Spectra Caluculate bo Hio Analog Input 07 y Analog Input 08 25 Analog Output 09 Analog Output 10 294 Digital Input 11 39 Digital Input 12 494 Digital Input 13 39 Digital Input 14 x Digital Output 15 x Digital Output 16 us Digital Output 17 basa Digital Output 18 s Counter 20 llan Counter 21 aay 1 0 Module 2 ADIT Madule ADIT E Interfaces 8H up Memory i gey Software channels Technical specifications for each characteristic 2010 2012 Delphin Technology AG 0 Blocks Ok Module 3m Ok Forced Analog Input Inactive AnalogInput Inactive AnalogInput 3 Inactive AnalogInput 4 Peak tp peak value Mean value True RMS value Frequency o
212. trigger is triggered by a channel and has been set to Edge both The reset is also triggered by a channel but has been set to High level Impulse 04 Res O1 Trig 10 17 30 10 17 40 10 17 50 10 18 00 10 18 10 04 03 2011 The trigger blue curve starts the pulse generator red curve with a rising edge Then comes the reset purple curve Because the high level high remains no fur ther pulses are generated Reset High level Meanwhile the trigger channel switches to a low level Low However because the reset channel remains at a high level the trigger channel s edge has no effect The pulse generator does not re start even when the reset channel reverts to a low level a re start takes place only with a rising edge in the trigger channel LogMessage 118 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology c Trigger and reset are triggered by channels and are set to High level Impulse D4 Res 01 Trig 10 25 00 10 25 20 10 25 40 04 03 2011 The pulse generator red curve is started by the trigger channel blue curve When a reset signal purple curve is received the output is set to low and no further pulses are generated When the reset signal resets to Low the pulse generator re starts 10 25 25 because the trigger channel remains at a high level In the second example no further pulses are generated because the trigger chann
213. type Many settings are similar especially in the upper and lower sections and can therefore be explained generally for any type of channel g Channel settings Analog Input Kraft an Ose oben ProfiMessage SN41030570 4 Active Channelname Kraft an Ose oben Unit N Location Ose oben Description misst die Kraft im oberen Bereich der Ose Main settings Advanced settings Additional settings Measuring time Sensor correction Sensor type Mode CENE Voltage x bipolar gt Measuring range 10000 00 mv Scaling Measuring value Scale value 2 Min 10000 00 mv 10000 00 N Max 10000 00 mv 10000 00 N Lower section 4 Previous Y Next X Cancel Help ast change 02 04 2012 09 23 31 995 LogMessage 66 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay v Upper section Channel settings Analog Input Kraft an Ose oben ProfiMessage SN41030570 dej 4 Active Channelname Kraft an Ose oben Unit N Location Ose oben Description misst die Kraft im oberen Bereich der Ose Active Enables or disables the channel Channel name Enter a meaningful and unique name to identify the channel Unit Enter the unit of measurement Info e9 The unit for memory groups should be left at default Storage ca pacity is always shown as a percentage Location Information on the location of t
214. ude Time signal 197 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology Signal 6 Description Signals with frequency components and paired phase shifts appropriate to the shaft vibration application Channel 1 3 5 7 Sinus with 3 components 320 mVpp 40 Hz 30 80 mVpp 80 Hz 40 16 mVpp 120 Hz 50 Channel 2 4 6 8 Sinus with 3 components 240 mVpp 40 Hz 300 60 mVpp 80 Hz 2209 12 mVpp 120 Hz 140 Each channel with an amplitude offset of 7000 mV Time signal frequency spectrum and orbit PN 9 5 ms a0 sto 100 S 21 06 2006 12 59 37 517 Signal 7 Description Signals with low frequency Channel 1 Sinus 1000 mVpp 1 25 Hz Channel 2 8 same signal with 2 to 8 times amplitude Time signal T cj yr eas maxiluanm 32 600 sec 32 800 sec 33 000 sec 33 200 sec Modulation Optional modulation varies the demo signal from measurement to measurement Modulation 1 Modulation of amplitude 50 to 50 for 32 measurements Modulation 2 Modulation of frequency 50 to 50 for 32 measurements LogMessage 198 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chraloay Modulation 3 Modulation of phase 45 to 45 for 32 measurements Modulation 4 Modulation of offset 1000 mV to 1000 mv for 32 measurements Modulation 5 Noise in the range of 5
215. uency f A f Bandi 221 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Below is the corresponding configuration dialog Main settings tab Example 1 Fixed frequency band The characteristic value delivers the frequency spectrum s largest amplitude within the band 100 5 Hz or 95 to 105 Hz Main settings Advanced settings Scaling Measuring value Scale value Min 10000 Hz 10000 my Max 10000 Hz 10000 my Fixed frequency band Rotation speed adapted frequency band Frequency band Median Width 600 mir 100 Hz 10 Hz 3000 1 min 100 Hz 10 Example 2 Frequency band adapted to rotation Monitoring of the dual synchronous shaft vibra tion in a machine with a rotating shaft The frequency band midpoint is shifted proportional ly and automatically from 20 to 100 Hz for operating rotations from 600 to 3000 rev min 10 to 50 Hz The width of the frequency band is 5 Hz Main settings Advanced settings Scaling Measuring value Scale value Min 10000 mv 10000 my Max 10000 mv X 10000 my gt Fixed frequency band Rotation speed adapted frequency band Rotation speed Frequency band Median Width Min 600 1 min 20 Hz 10 Hz Max 3000 1 min 100 Hz 10 Hz LogMessage 222 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology fm Hz n 0 600 1200 180
216. ues need to be entered If a varia ble is used it requires configuring via the Variables tab This applies even when using a glo bal external setpoint table for the selected channel for Global settings Trigger Value channel Time unit Value channel None 0 Minute vari Adis tine None 15 Minute vari None 6 Minute vari n None 6 Minute var2 Cycle time None 6 Minute vari 1 second x None 6 Minute var3 None 6 Minute vari Import Export Change table entries Time Value X 6 Minute X Value Variable Value X varl Add Change Delet Method 1 For each table row program step enter the time value Time with the unit of time and to be used and the value to be output 2 Click Aad 3 Enter the required Global Settings Select a row to change the specified values Then click Change Delete removes the selec ted row A table can be imported as well as created Import Numbers constants or variables can be used for times and values The variables are then defined via the Variables tab For time input the variable may be used as a value or as a trigger Variable value means that the value of the variable is used as time value Variable trigger means that the channel set for the variable is used as a trigger channel A trigger event is a rising edge If this trigger occurs the value that is programmed into the program step for the trigger is applied as a setpoint and
217. uire connection of a load resistor at the device s input terminals Resistors are available as accessories Strom Analog Input 0 4 20mA Info The load resistance must be between 10 Q and 5002 151 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin Technology v Measuring temperatures with a thermocouple at an analog input Thermocouples can be directly connected Use the configuration dialog to set the type J K T R etc Thermoelement JLKT R B Analog Input Info The compensation required for the thermocouple is integrated into the device Enter the compensation channel as the Reference Junction in the Extended settings tab for the same I O module v Measuring temperatures resistances at an analog input Connect resistor or temperature probes with 4 wire technology when possible This connection method provides the best results since current path and measuring circuit are separate Measurement current in 2 or 3 wire connectors flows through both or one measurement lines Voltage drops on the measuring line can therefore distort rea dings Several constant power sources are available within the device to supply power Widerstand Stromquelle Info These sources deliver 1 mA they can measure resistance values ofup to 10kQ LogMessage 152 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin Technology Y Sensor at a digital
218. unicates with a CPU via an expansion bus The I O module AMDT is equipped with the fastest sampling and transfer rates Specific conditions need to be taken into account when planning a system Regulations according hardware set up One I O module AMDT can be installed in any one slot Full functioning is then availa ble When setting parameters take into account the maximum transfer rate of 10 000 samples s Iwo I O modules AMDT can be installed in any of the available slots Ensure adequate ventilation when both I O module AMDTs are installed in the base device Full functioning capability is however no longer available Both AMDT modules can continuously transmit characteristic values but only one AMDT can continuously transmit time signals or frequency spectrums or both Two synchronized I O modules AMDTs can be installed in any of the available slots Synchronization requires additional wiring and occupies digital input 4 and digital out put 4 Ensure adequate ventilation when both I O modules AMDT are installed in the base device Synchronization is available only in the non continuous recoding opera ting mode Both AMDT modules can transfer time signals frequency spectrums and characteristic values continuously and synchronized Refer here to the section on synchronizing two AMDT modules Three or more I O modules AMDT can not be installed LogMessage 182 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin
219. ut and reset internally to zero at the selected edge Rising edge Falling edge or Edge both When enabled Reset trigger the counter is dis played only at a reset event unless the Generate intermediate values option has been enabled Generate intermediate values When enabled the results are also output between Reset events immediately after their calculation at every counter change Output update trigger The channel s counter is output at the selected edge Rising edge Fal ling edge or Edge both Refer also to Trigger options LogMessage 146 July 2012 2010 2012 Delphin Technology AG LogMessage Delphin chnology v Example of counting up A Cursor 1 i Cursor 2 i 09 10 30 593 09 11 13 423 42 830 sec 00 Counter 1 Aufw rts Trigger Ein 10 04 5 0 03 10 30 03 11 00 03 11 30 10 03 2011 The counter green curve increases by one for each edge from the source channel orange curve until the reset trigger becomes active The Generate intermediate va lues option is enabled so all new counter states are output immediately 147 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chology v Example of counting down Y1 i Cursor 1 i Cursor 2 i 3204 08 36 28 757 OEA ETA 04 140 35 383 sec 00 Counter 1 i 14 13 I 40 Abwarts Jrigger Ein Ein 6 0 8 0 10 0 12 0 14 0 Abw rts 08 36 00 08 36 30 08 37 00 08 37 30 14 03 2011
220. ut not every setting is ac cessible from every type of sensor Main settings Advanced settings Additional settings Measuring time Sensor correction Monitoring Vi Measuring range monitoring Wire break monitoring Cycle times WV Calibration every 2 10 cycles T Measurement every 1 ai cycles Reference Junction 9 Channel Reference Junction x 4 Inherite state Manual value Monitoring Measuring range monitoring When data is not in the Measuring range specified in the Main settings tab the channel status is set to measurement range overrun underrun The status otherwise displays OK The output value of the channel is set to the maximum or minimum value of the Scaling value in the Main settings tab Channel status values are available in the status monitoring table Wire break monitoring The option is useful for monitoring sensor failure in for example ther mocouples or sensors with 4 20 mA output In the event of a failure channel status is set to wire break Channel status values are available in the status monitoring table Cycle times Calibration every 2 x cycles Offset errors require correcting from ambient temperature fluc tuations in long term measurement procedures This setting determines how often this hap pens A cycle is made up of the measurement of all active channels in the module refer to Overall module measuretime in the Measuring time tab The default is ever
221. valid as at the date of the declaration The following standards regulations have been applied EN 61 326 1 2006 EMC requirements for electrical measurement amp control technology and laboratory equipment EN 55011 2007 A2 2007 ISM devices electromagnetic interference EN 61010 1 2001 Equipment safety Manufacturer s address Delphin Technology AG Lustheide 81 51427 Bergisch Gladbach Refrath Germany Tel 49 aeree 97685 0 Fax 49 0 2204 97685 85 E Mail info delphin de This declaration is issued under the sole responsibility of the manufacturer and where required its authorised representatives Contact person Claudia G bel Tel 49 0 2204 97685 0 Fax 49 0 2204 97685 85 Bergisch Gladbach 29 06 2012 y AG CLAUDIA chairwoman of the board of management Delphin Technology AG Lustheide B1 51427 Bergisch Gladbach Deutschland Vorsitzender des Aufsichtsrats Dipl Ing Peter Renner Vorstand Claudia G bel Vorsitzende Frank Ri Sitz der Gesellschaft Bergisch Gladbach HRB 47544 DE121973939 St Nr 204 5712 1886 WEEE Reg Nr DE 78054880 Raiffeisenbank K rten Odenthal Kto 5648017 BLZ 370 691 25 IBAN DE39 3706 9125 0005 6480 17 BIC GENODED1RKO Postbank K ln Kto 229566 504 BLZ 370 100 50 Kreissparkasse K ln Kto 320 000117 BLZ 370 502 99 Konfonrit tserkldrung ProfiMessage CG2012 d0cx 259 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delph
222. y 1024 cycles 2 For an A D measurement time of 100 ms for 8 active channels any offset errors are then corrected approximately every 14 minutes Measurement every x cycles To specify that a measurement from a channel is acquired at for example every 10th cycle A cycle is made up of the measurement of all active channels in the module refer to Module s overall measurement time in the Measurement cycle settings tab 79 LogMessage 2010 2012 Delphin Technology AG July 2012 LogMessage Delphin chnology Compensation The setting is available for thermocouple sensor types and pH probes Enter the Channel that is to be used for the thermocouple s cold junction measurement junction between thermocouple and copper wire connector or the temperature compensation for the pH pro be The default Reference Junction uses the measurement from the Pt100 temperature sensor at the I O module s terminal and is practical only for the thermocouple sensor type A diffe rent channel may also be used When the temperature at the thermocouple to copper wire junction remains constant this temperature can be entered as a Manual value Inherite status means that the compensation status is applied also to the current measu ring point Info Refer also to Examples of connections for information on the connection of sensors and Measurement technology for background information on measu rement technology in practice 5 6 5 1 Voltage sensor

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