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1. 1 2 uF resistive load greater than 2 kO Mechanical Parameters Connection Sensor connector 5 pole M12 Degree of protection IP65 67 Dimensions Weight plastic housing 66 mm x 90 mm x 36 mm about 200 g CE conformity to EC Directive 2006 42 EC EC Directives RL 2004 108 EC EMC Directive RL 2006 95 EC Low Voltage Directive LVD Harmonized standards DIN EN 50498 2010 Electromagnetic compatibility EMC Product family standard for aftermarket electronic equipment in vehicles EN 60950 1 2006 A1 2010 Information technology equipment Safety General requirements EN ISO 14982 2009 Agricultural and forestry machinery Electromagnetic compatibility Test methods and ac ceptance criteria DIN EN 13309 2010 Construction machinery Electromagnetic compatibility of machines with internal power supply Table 3 Technical Data 2 Allindicated angle accuracies are valid after a running time of 10 minutes at 25 C Cut off frequency 0 3 Hz Absolute calibration accuracy at 25 C 0 05 Document 23x5x HB 1 0 E ISxBPxxx IU CL gt 3 Technical Data IS1BP360 U CL IS2BP090 U CL GEMAC Sensorik Messtechnik ASIC Design Electromagnetic Compatibility EMC Transient Emissions Radiated disturbance Radio field strength Limit curves broadband and narrowband EN ISO 14982 agricultural and forestry machinery respectively EN ISO 13309 construction machinery 30 1000 MHz vertical and horizontal Immunity to R
2. Alle Parameter Analogausg nge Ausgang kanal O Kanal B Ausgang kanal A O Kanal B Konfiguration Konfiguration usgang Achse usgang aktiviert m x A X Ach A UTER Begrenzung Begrenzung v 45 00 Stromausgang 30 00 Spannungsausgang 4 20m m 10 10V Ir CU 4 000 mA Eingabe vu 10 000 v Eingabe CO 20 000 mA Eingabe VO 10 000 V Eingabe 90 00 po 29 44 Winkelwerte Winkelwerte 18 156 mA wu 90 00 Eingabe 150 11 wu 30 00 Eingabe E eingestellter Winkelbereich Nullpunkt wo 45 00 Eingabe X 0 009 wo 270 00 E j 270 00 WD eingestellter Winkelbereich Nullpunkt Figure 10 Graphical configuration of the outputs A and B 7 2 2 3D imaging and display ofthe current angle By the program integrated 3D view the position of the sensor in space can be visualized ZA Unbenannt 1SDControl ex Datei Ansicht Kommunikation Sensor Hilfe h r Strom Spannung Sensor Auswahl X Sensor 3D Ansicht MO Neigungssensor gt T Standard Vollbild J Winkelwerte anzeigen CAN 300h 301h 10 gt lt I 0 00 12 008 mA 0 04 11 996 mA CANopen lt I Strom 152D 90 P24 uU Spannung Sensor Info x Angeschlossener Sensor Schnittstelle CURRENT Produktcode PR 23454 00 Seriennummer 00019 Device ID IS2D 90 P24 Fir
3. Out unse ee ea a u nennen 7 Figure 4 Connection diagram current interface uuurssnnnnnnnennnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn T7 Figure 5 Connection diagram voltage interface 44444nnsnnnnnnennnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn nn 7 Figure 6 Cable length at current interface menn nnne enne nnne nennen 8 Figure 7 Impulse and amplitude response of the two filters 10 ale drcum E 11 Figure 9 Numerical configuration of the inclination sensor sseeseeeenm 12 Figure 10 Graphical configuration of the outputs A and B uuussssssnnnnennnssnnnnnennnnnnnnnnnnnnnnnnnnnnnnnnnn 13 Figure 11 3D imaging and display of the current angle sssss n 13 Figure 12 Oscilloscope display of the current angle ssssssene mme 14 Document 23x5x HB 1 0 E ISxBPxxx IU CL IV 1 Overview A Sensorik Messtechnik ASIC Design 1 Overview 1 1 Characteristics Inclination sensors with measurement range 360 90 X Y Linearized output high accuracy 0 06 Compensated cross sensitivity Programmable vibration suppression Freely programmable current or voltage interface Robust UV resistant impact strength plastic housing Suitable for industrial use Temperature range 40 C to 80 C Degree of protection IP65 67 The 1 dimensional inclination sensors IS1BP360 I CL and IS1BP
4. Sensorik Messtechnik ASIC Design 8 Ordering Information GEMAC 8 Ordering Information Article Number Product Type Description Distinction PR 23450 00 IS1BP360 I CL 1 dimensional 360 current interface PR 23454 00 IS2BP090 I CL 2 dimensional 90 current interface PR 23550 00 IS1BP360 U CL 1 dimensional 360 voltage interface PR 23554 00 IS2BP090 U CL 2 dimensional 90 voltage interface PR 23998 00 TA1 Teach adapter PR 23999 01 ISPA1 Inclination sensor programming adapter Starter kit including programming adapter cables and PC software Table 8 Ordering Information Document 23x5x HB 1 0 E ISxBPxxx IU CL 15
5. cteristics an S 1 1 2 Applications aa cna ead teh ee Plauen een een ee 1 2 Technical Data IS1BP360 I CL IS2BPO90 I CL 222uunennsnnnnnnennnsnnnnnnennnnnnnnnnnnnnennnnnnnnnnnnnnnnannnnnnnnnnnnn 2 3 Technical Data IS1BP360 U CL IS2BPO90 U CL u 2224usnsnsssnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn nn 4 4 Mountingussvuva een ee cher nee 6 4 1 Position of Drilling Floles 3 iater ee ea npa ue et eee 6 4 2 Definition of the AXes 6 serez mL 7 Seriem en besitte ee 7 5 2 Connection dIagrarm iucuiiie ee cdi tied ed rene bene Ie ode nn nei nein T7 5 3 Cable length and minimum supply voltage for current interface 244440nnssnnnnnnnennnnnnnennnnnnnnnnn 8 6 Functional description iiec eder eio tao ae a nal eieaa E datt 9 6 1 Axis assignment Axis direction ana een 9 6 2 Zero Point Adjustment uuss44s4nnnnnnnnnnnnnennnnnnnnnnennnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnnnnnnnnnnnnnnrnnnnnnnnnnn 9 6 3 Digital Filter 20a Ei 10 6 4 Status EED 2 2 e 10 7 Sensor C nfiguration ur E 11 7 1 Inclination sensor programming adapter uu rrs44esnennennnnnennnnennnnnnnnnnennnnnennnnnnnnnnnnnnnnnnnnnnn nn 11 7 2 PC software ISDControl uu 44444444Hnnnnnnnnnnnnnnennnnnnnn
6. 360 U CL are suitable to measure the in clination in the range of 360 the 2 dimensional inclination sensors IS2BP090 I CL and IS2BP090 U CL are suitable to measure the inclination in 2 dimensions X Y in a range of 90 To ensure a high accuracy the sensors are calibrated at the factory The compact and robust design makes the sensor a suitable angle measurement device in rough surround ings for different applications in industry and vehicle technology A simple setting of all adjustable paramet ers is possible using the ISPA1 programming adapter 1 2 Applications Solar thermal and photo voltaic systems Agricultural and forestry machinery Construction machinery Crane and hoisting technology Document 23x5x HB 1 0 E ISxBPxxx IU CL 1 GEMAC Sensorik Messtechnik ASIC Design 2 Technical Data IS1BP360 I CL IS2BP090 I CL 2 Technical Data IS1BP360 I CL IS2BP090 I CL Measurement range 360 90 Resolution 0 01 0 01 Accuracy Range typical maximum Range typical maximum 0 360 0 04 0 12 up to 60 0 02 0 06 up to 70 0 04 0 12 up to 80 0 08 0 24 up to 85 0 16 0 48 Cross Sensitivity compensated typ 0 10 96 max 0 50 Temperature coefficient zero point typ 0 0088 K 0 0102 K Sampling rate 100 Hz Cut off frequency typ 20 Hz 2 order without digital filter 0 1 25 Hz 8 order with digital filter Operating temperature 40 C to 80 C Char
7. GEMAC Sensorik Messtechnik ASIC Design User manual Inclination Sensors with Current and Voltage Interface Version 1 0 Date 2014 05 30 classicILINE IS1BP360 I CL IS2BP090 I CL IS1BP360 U CL IS2BP090 U CL GEMAC Gesellschaft f r Mikroelektronikanwendung Chemnitz mbH Phone 49 371 3377 0 Zwickauer Stra e 227 Fax 49 371 3377 272 09116 Chemnitz E mail info gemac chemnitz de Germany Web www gemac chemnitz de GEMAC Sensorik Messtechnik ASIC Design Revision History Revision History Date Revision mans L 2014 05 30 0 first version Copyright 2014 GEMAC Gesellschaft f r Mikroelektronikanwendung Chemnitz mbH This document is subject to change without notice We constantly work to further develop of our products We reserve any changes of the scope of delivery in shape equipment and technology for ourselves No claims can be made from the details illustrations and descriptions in this document Any kind of duplication reprocessing and translation of this document as well as excerpts from it require the written permission of GEMAC Gesellschaft f r Mikroelektronikanwendung Chemnitz mbH All rights according to the copyright remain explicitly reserved for GEMAC Gesellschaft f r Mikroelektroni kanwendung Chemnitz mbH Document 23x5x HB 1 0 E ISxBPxxx IU CL l GEMAC Table of Contents Sensorik Messtechnik ASIC Design Table of Contents Ue ae aan ag OE E O een 1 1 1 Char
8. acteristics Current interface freely adjustable output in the range 0 20 48 mA factory default 4 20 mA freely adjustable angle in the range 0 360 90 Funktionen Teach input for zero point adjustment when installed Limit value Axis direction and assignment of the outputs are adjustable Two programmable digital filter lowpass 8th order Electrical Parameters Supply voltage 17 to 35 VDC Current consumption 40 mA 24 V loop Outputs short circuit proof inductive load less than 1 H load 500 O default Mechanical Parameters Connection Sensor connector 5 pole M12 Degree of protection IP65 67 Dimensions Weight plastic housing 66 mm x 90 mm x 36 mm about 200 g CE conformity to EC Directive 2006 42 EC EC Directives RL 2004 108 EC EMC Directive RL 2006 95 EC Low Voltage Directive LVD Harmonized standards DIN EN 50498 2010 Electromagnetic compatibility EMC Product family standard for aftermarket electronic equipment in vehicles EN 60950 1 2006 A1 2010 Information technology equipment Safety General requirements EN ISO 14982 2009 Agricultural and forestry machinery Electromagnetic compatibility Test methods and ac ceptance criteria DIN EN 13309 2010 Construction machinery Electromagnetic compatibility of machines with internal power supply Table 1 Technical Data 1 Allindicated angle accuracies are valid after a running time of 10 minutes at 25 C Cut off frequency 0 3 Hz Absolute ca
9. adio Frequency Fields RF fields Strip line according to ISO 11452 5 Anechoic chamber according to ISO 11452 2 Limits according to EN ISO 14982 agricultural and forestry machinery respectively EN ISO 13309 construction machinery 20 400 MHz 200 V m 1 KHz AM Performance criteria A Limits according to EN ISO 14982 agricultural and forestry machinery respectively EN ISO 13309 construction machinery 200 1000 MHz vertical 400 1000 MHz horizontal 100 V m 1 KHz AM Performance criteria A Immunity to Conducted Disturbances on board power supply 24 VDC Test pulse according to ISO 7637 2 2004 Test pulse Severity level Performance criteria 1 450 V II C 2a 37 V II B 2b 20 V II C 3a 150V Il A 3b 150 V I A 4 12 V Ill B 5a 70 V Ri 10 A 5b 36 V Ri 0 5 0 A Immunity to Electromagnetic Discharge ESD ESD according to ISO 10605 2008 Limits according to EN ISO 14982 agricultural and forestry machinery respectively EN ISO 13309 construction machinery discharge combination 330 pF 330 O Contact discharge 8 KV bipolar metallic parts Air discharge 15 KV bipolar Performance criteria A Table 4 Electromagnetic Compatibility EMC Document 23x5x HB 1 0 E ISxBPxxx IU CL GEMAC Sensorik Messtechnik ASIC Design 4 Mounting 4 Mounting 4 1 Position of Drilling Holes The four drilling holes to mount the sensor Figure 1 are situated in the base plate of the inclination se
10. e rotation axis in the 1 dimensional inclination sensor An assignment of both outputs to the same axis is also pos sible With the optional inversion of the axis direction every conceivable constellation of the output assign ment is possible The axis direction can be changed by swapping the upper and lower current or voltage output values 6 2 Zero Point Adjustment For all inclination sensors ISxBPxxx I CL and ISxBPxxx U CL the zero point can be adjusted This allows to set the zero position in the installed state of the sensor This can either be made via the PC program by the teach adapter TA1 PR 23998 00 or by means of the teach input To set the zero point using the teaching input it must be connected for a period of at least one second with the supply voltage V pin 1 The cur rent position of the inclination sensor is then set for each output to zero degree angle The sensor will con firm this by turning off the Status LED for the duration of one second To reset the zero point to factory de faults the teaching input has to be connected for the duration of three additional seconds to the supply voltage The sensor will indicate this by turning off the Status LED for also three seconds Document 23x5x HB 1 0 E ISxBPxxx IU CL 9 GEMAC Sensorik Messtechnik ASIC Design 6 Functional description 6 3 Digital Filter The inclination sensors ISxBPxxx I CL and ISxBPxxx U CL offers the possibility to suppress the influence of
11. external disturbing vibrations The internal lowpass digital filters 8th order are programmable down to 0 1 Hz The sensor has two digital filters that can be selected according to the application of the sensor Adjustable Applications frequency range Butterworth 0 1 Hz 25 Hz Static inclination measurement with high damping to vibration Critically damped 0 1 Hz 8 Hz Inclination measurement in applications that requires a certain dynamism without over shoot at angle changes with good damping Table 6 Filter selection Step response 8th order filter T T T Gain response 8th order filter 15 r T 10 T T T Tilt 7 Gain dB Step Butterworth f 2 Hz Butterworth f 2 Hz 60 Butterworth f 0 5 Hz Butterworth f 0 5 Hz critically damped f 2 Hz 70H critically damped f 2 Hz critically damped f 0 5 Hz critically damped f 0 5 Hz i i I I I I 80 TAB Zr TEE 5 6 7 8 9 10 0 01 0 1 Time s Frequency Hz Figure 7 Impulse and amplitude response of the two filters 6 4 Status LED The integrated two color Status LED signals the recent device state The color of the LED distinguish the different device states as shown in Table 7 Off No power supply or teach confirmation Green The device is in working condition Red Current interface one or both outputs in open circuit condition
12. libration accuracy at 25 C 0 05 Document 23x5x HB 1 0 E ISxBPxxx IU CL N 2 Technical Data IS1BP360 I CL IS2BP090 I CL GEMAC Sensorik Messtechnik ASIC Design Electromagnetic Compatibility EMC Transient Emissions Radiated disturbance Radio field strength Limit curves broadband and narrowband EN ISO 14982 agricultural and forestry machinery respectively EN ISO 13309 construction machinery 30 1000 MHz vertical and horizontal Immunity to Radio Frequency Fields RF fields Strip line according to ISO 11452 5 Anechoic chamber according to ISO 11452 2 Limits according to EN ISO 14982 agricultural and forestry machinery respectively EN ISO 13309 construction machinery 20 400 MHz 200 V m 1 KHz AM Performance criteria A Limits according to EN ISO 14982 agricultural and forestry machinery respectively EN ISO 13309 construction machinery 200 1000 MHz vertical 400 1000 MHz horizontal 100 V m 1 KHz AM Performance criteria A Immunity to Conducted Disturbances on board power supply 24 VDC Test pulse according to ISO 7637 2 2004 Test pulse Severity level Performance criteria 1 450 V II C 2a 37 V II B 2b 20 V II C 3a 150V Il A 3b 150 V I A 4 12 V Ill B 5a 70 V Ri 10 A 5b 36 V Ri 0 5 0 A Immunity to Electromagnetic Discharge ESD ESD according to ISO 10605 2008 Limits according to EN ISO 14982 agricultural and forestry machinery respecti
13. mwareversion v3 28 Winkelbereich 90 Aufl sung 0 01 Status 0x01 Sensor Konfiguration Sensor 3D Ansicht Sensor Oszilloskop Bereit 152D 90 P24 Serien Nr 00019 CO NUM at Figure 11 3D imaging and display of the current angle Document 23x5x HB 1 0 E ISxBPxxx IU CL 13 GEMAC Sensorik Messtechnik ASIC Design 7 Sensor configuration 7 2 3 Oscilloscope display of the current angle In the oscilloscope display the influence of the adjustable digital filter can be controlled directly Time base of the view and amplitude and offset can be set analog to the operation of an oscilloscope Unbenannt ISDControl x Datei Ansicht Kommunikation Sensor Hilfe af Vad Strom Spannung gt n Sensor Auswahl x Neigungssensor Parameter Sensor Einstellungen m CAN Digitalfilter aktivieren Zeitbasis 1 sfdiv Ansicht r cksetzen Grenzfrequenz in mHz 2000 CANopen X Achse Y Achse Amplitude 10 div 7 i 5 Strom Offset 10 0 152D 90 P24 Oszilloskop Spannung Sensor Info x Angeschlossener Sensor Schnittstelle CURRENT Produktcode PR 23454 00 Seriennummer 00019 Device ID IS2D 90 P24 Firmwareversion v3 28 Winkelbereich 90 Aufl sung 0 01 Status 0x01 i Sensor Konfiguration Sensor 3D Ansicht Bereit 152D 90 P24 Serien Nr 00019 Co NUM Figure 12 Oscilloscope display of the current angle Document 23x5x HB 1 0 E ISxBPxxx IU CL 14
14. nnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnnnnnnnnnnn nenn anna 12 7 2 1 Configuration of all valies sses eira nna E eene neme ned neni E ERAEN 12 7 2 2 3D imaging and display of the current angle sssssssss e 13 7 2 3 Oscilloscope display of the current angle ssssee mens 14 8 Ordering Mayer i o E 15 Document 23x5x HB 1 0 E ISxBPxxx IU CL Il List of Tables List Table 1 Table 2 Table 3 Table 4 Table 5 Table 6 Table 7 Table 8 GEMAC Sensorik Messtechnik ASIC Design of Tables Technical Dad nk ah en a en he ne anna nn 2 Electromagnetic Compatibility EMC 4444snnennnnnnennssnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn 3 I enudcBb i te e M 4 Electromagnetic Compatibility EMQC eeesesessseeeeeennnnnnn menm 5 Cable length at minimum supply voltage and different wires sizes 8 Filter eic ee 10 Status and Error Display through Status LED sesessseeeeeenneeennn nn 10 Ordering Information ae eben en 15 Document 23x5x HB 1 0 E ISxBPxxx IU CL Ill GEMAC Sensorik Messtechnik ASIC Design List of Figures List of Figures Figure 1 Dimensioned Sketch of plastic housing sssssssse eene 6 Figure 2 Definition of the Axes factory default settings 6 Figure 3 Connector Pin
15. nsor IL i H for hexagon socket screw M5 DIN 912 A2 4 pcs Se ee mandatory use conical Q i spring washer M5 DIN 6796 A2 4 pcs 66 0 45 0 I I 4 I I I I I I I I I I I 1 LR 2 8 75 0 90 0 Figure 1 Dimensioned Sketch of plastic housing 4 2 Definition of the Axes Figure 2 Definition of the Axes factory default settings Document 23x5x HB 1 0 E ISxBPxxx IU CL 6 5 Connection GEMAC Sensorik Messtechnik ASIC Design 5 Connection 5 1 Connector Pin Out The inclination sensors IS1BP360 I CL IS2BP090 I CL IS1BP360 U CL and IS2BP090 U CL are equipped with a common 5 pole round plug M12 A coded 1 V Supply voltage 24 V B OUT Standard Y Sensor output B V GND Supply voltage ground Sensor ground A OUT Standard X Sensor output A a A O N TEACH Input for zero point adjustment Figure 3 Connector Pin Out View from the outside 5 2 Connection diagram GEN Da Zero Point Adjustment Figure 4 Connection diagram current interface V a RN Zero Point Adjustment Figure 5 Connection diagram voltage interface Document 23x5x HB 1 0 E ISxBPxxx IU CL 7 GEMAC Sensorik Messtechnik ASIC Design 5 Connection 5 3 Cable length and minimum supply voltage for current interface At current interface IS1BP360 I CL IS2BPO90 I CL the requi
16. or wrong connected Voltage interface one or both outputs in short circuit condition or wrong connected Table 7 Status and Error Display through Status LED Document 23x5x HB 1 0 E ISxBPxxx IU CL 10 GEMAC Sensorik Messtechnik ASIC Design 7 Sensor configuration 7 Sensor configuration 7 1 Inclination sensor programming adapter With the optional inclination sensor programming adapter starter kit it is possible to adjust all inclination sensors with CAN CANopen current or voltage interface It consists of a programming adapter that is con nected via USB to a PC The connection with the programming adapter is realized through various also in cluded adapter cables The inclination sensor is supplied with power through this An additional power sup ply is not necessary ISDControl FR Figure 8 Starter kit Document 23x5x HB 1 0 E ISxBPxxx IU CL 11 GEMAC Sensorik Messtechnik ASIC Design 7 Sensor configuration 7 2 PC software ISDControl The parametrization of all possible values is done with the PC software ISDControl which is included in all starter kits Each configuration can then be stored in a file 7 2 1 Configuration of all values For all inclination sensors the adjustment of the parameters can be done either numerically or graphically refer to Figure 9 and 10 Figure 9 Numerical configuration of the inclination sensor Document 23x5
17. red supply voltage is increased by the voltage drop on the connected cable The highest voltage drop on the cable is produced when the maximum current of 20 mA is flowing through the resistance of the cable RL Here the resistance of the outgoing and the incoming wire must be taken into account refer to Figure 6 V Rioad 500 R O V Figure 6 Cable length at current interface The following table shows examples of the possible cable length at minimum supply voltage and the corres ponding wire size cross section The table is based on the calculation of the line resistance according to VDE 0295 and a load resistance Rioad of 500 Q Minimum Cable Maximum cable length in m at wire sizes of supply voltage resistance 17 35 60 84 124 187 10 18 50 176 304 423 623 936 20 150 528 914 1271 1870 2808 22 250 880 1524 2118 3117 4681 24 350 1232 2134 2966 4364 6554 26 450 1584 2743 3813 5610 8426 28 550 1936 3353 4661 6857 10299 30 650 2288 3963 5508 8104 12172 Table 5 Cable length at minimum supply voltage and different wires sizes Document 23x5x HB 1 0 E ISxBPxxx IU CL 8 GEMAC Sensorik Messtechnik ASIC Design 6 Functional description 6 Functional description 6 1 Axis assignment Axis direction All inclination sensors ISxBPxxx I CL and ISxBPxxx U CL have two analog outputs A and B that can be as signed to any in hardware available X and Y axes for the 2 dimensional inclination sensor and to th
18. vely EN ISO 13309 construction machinery discharge combination 330 pF 330 O Contact discharge 8 KV bipolar metallic parts Air discharge 15 KV bipolar Performance criteria A Table 2 Electromagnetic Compatibility EMC Document 23x5x HB 1 0 E ISxBPxxx IU CL GEMAC Sensorik Messtechnik ASIC Design 3 Technical Data IS1BP360 U CL IS2BP090 U CL 3 Technical Data IS1BP360 U CL IS2BP090 U CL Measurement range 360 90 Resolution 0 01 0 01 Accuracy Range typical maximum Range typical maximum 0 360 0 04 0 12 up to 60 0 02 0 06 up to 70 0 04 0 12 up to 80 0 08 0 24 up to 85 0 16 0 48 Cross Sensitivity compensated typ 0 10 max 0 50 Temperature coefficient zero point typ 0 0083 K Sampling rate 100 Hz Cut off frequency typ 20 Hz 2 order without digital filter 0 1 25 Hz 8 order with digital filter Operating temperature 40 C to 80 C Characteristics Voltage interface freely adjustable output in the range 10 48 10 48 V factory default 0 10 V freely adjustable angle in the range 0 360 90 Funktionen Teach input for zero point adjustment when installed Limit value Axis direction and assignment of the outputs are adjustable Two programmable digital filter lowpass 8th order Electrical Parameters Supply voltage 10 to 35 VDC Current consumption 55 mA 24 V Outputs short circuit proof capacitive load less than
19. x HB 1 0 E ISxBPxxx IU CL Unbenannt ISDControl x i Datei Ansicht Kommunikation Sensor Hilfe ur Strom Spannung Sensor Auswahl X Sensor Konfiguration MM Neigungssensor n CAN Alle Parameter Analogausg nge Dokument Sensor CANopen Digitalfilter aktivieren Grenzfrequenz in mHz 2000 2000 Strom Nullpunkteinstellung aktivieren L1 ENGE Nullpunktoffset x in 100 0 aus 0 aus Auto Spannung Nullpunktoffset Y in 100 D aus D aus Auto Kanal A Ausgang X Achse X Achse ndern Kanal A Begrenzung aktiviert aktiviert Kanal A Unterer Winkelwert 90 00 90 00 Sensor Info Kanal 4 Oberer Winkelwert 90 00 90 00 Angeschlossener Sensor Kanal A Unterer Stromwert 4 000 m 4 000 m Schnittstelle CURRENT Kanal A Oberer Stromwert 20 000 m 20 000 m Produktcode PR 23454 00 Kanal B Ausgang Y Achse Y Achse 3 ndern Seriennummer 00019 Kanal B Begrenzung aktiviert aktiviert Device ID 152D 90 P24 Kanal B Unterer Winkelwert 90 00 90 00 Firmwareversion v3 28 Kanal B Oberer Winkelwert 90 00 90 00 Winkelbereich 90 Kanal B Unterer Stromwert 4 000 m 4 000 mA Aufl sung 0 01 Kanal B Oberer Stromwert 20 000 m 20 000 m Status 0x01 i Sensor Konfiguration Sensor 3D Ansicht Sensor Oszilloskop Bereit 152D 90 P24 Serien Nr 00019 NUM ab 12 GEMAC Sensorik Messtechnik ASIC Design 7 Sensor configuration Alle Parameter Analogausg nge

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