Part 3
Contents
1. 818 25981 81 SNOILVINdINVA INJ3AD3S _ __ LNO amp J 7139 01 430 1 8 112 7 3 5 LNdLNO OOVMHI MI 03 SER ONY X307N0HS JHL OL IN3A32VIdSId CINdd 40 NOLLO3MIQ 3Hl 31VMISnITII NAOHS 5 JHL Figure D 5 Rib displacement 29 ISO 2011 All rights reserved ISO WD 15830 3 STH HLS HTH i E E bg E xu orae INI 1 30 1 2808 SAIL D 3 8 1 11 3 Oa J513 4 4 1 Te ACH 7 11 2 dT dd 33841 MIA INGa b 931914 E E 8 DAL 31 12385 35 4 1 62 05 401 1 45 E ug GERA Hd ALY Wd LOJI 1154 MST Tells save 441 251 013 HELA Y SiNda3HddH Jed 3 10 03 23340 MAGLI3A 32101 Y 51435384838 H 7 ANNE 23 JHL alae Ue SSD IPCHS La ACY 1 7 395 2 414402 DJ BITES 1 31 381 3 112 7 595 SHN JNL7 AMF He 1132 0911 31 MOSEL CDD AYN Puy T OSOL 0703 A DEUOL ON 3015 46 15 3v9 H34 0931 dern h ANCL CUR Fi 30 IM 504 202 NEY JEL Nad CHE az 17065 COT A2. ETT 522604 40 KOLLZ3EIC 01 532404 Galdd 49 1520 uUo S Y d 341 WASANII N O4S e OSEGL OTH URSMMEJH w 41 MAGE 4 1 4401 1112 LLE P AVS Hdd LAOS 34 15 amp 04 SNOLLS s YA NJIND S AUCE Figure D 6 Shoulder load cell ISO 2011 All rights reserved 30 ISO WD 15830 3 AVS 3 AlIBV Wd LAG LAO 5441 4 13229 CISC OA NDLLO3SIG 537 Wav 40 3018 124481 JAILVOGN 9 NOILVOIIdd HLIM 38 ALIAV Od AV C3TIN3AWDOO38 SI 11 SH313WDI831329V WAY AV ONILSSL NI 33 OL 300 33810 30 13941 29 123410 CAVALHOIA NI W y 40 30135 1431 15 1 153 10 8 Wav 30 89384 1394 1 XV SIHL 804 G3INGWWDO38 SI N3AWVH JEANA VIVI JINVNAU 9 1231102 ANY SWAY CISC SNIL2JVdWI I3523H29 38 LSNW SB8313WDe313223V AVS LNdLNO 13 13337 3AILISUd 503 SNUILY 1N3AD3S AOUE sak TT SRE 3 39NVH2 SIXV 0d 441 3 84 322v CISC 1 0 SWAY 1 015 1331 S3llddV LAVHI JHL NOISSSANO9 JHL S3IIADed LAVHI
3. 1 eene nnne nnn nnn nnn 22 Rotational accelerometer connector pin 22 Annex D informative Information regarding sensor output polarities 24 D 1 OVE VION A E E O O ER 24 D 2 Sensor oulput polarity sissies aaa aa a 24 ISO 2011 All rights reserved iii ISO WD 15830 3 Figures Figure A 1 Universal neck load 11 Figure A 2 Sacro aclod Cellera ______ 11 Figure Sacro iliac load cell right side top and left side 5 11 Figure Ad Lumbar load 2 0205 vente De un Dess uus ee 12 Figure A5 dPubicsympnysis oad 6elli suoi 4 1 1 4 5 o 12 A6 4emoral NECK load Cell etas 12 Mr 13 5 13 Figure 9 Universal arm load COM 13 FIGUIC A TO IDOW load Cell 556 busta 14 Figure
4. xL 1 3 1892 Figure C 1 Linear accelerometer wiring 23 pma aw ISO 2011 All rights reserved ISO WD 15830 3 Annex D informative Information regarding sensor output polarities D 1 Overview In order to minimize the number of specialized load cells and accelerometers required for the WorldSID universal sensors were designed which are capable of being mounted in different locations e g the universal leg load cell is used in three different locations As units are moved from one location to another the resulting signal polarity may change Users of the WorldSID should familiarize themselves with the polarity of each unit in each different mounting location and orientation D 2 Sensor output polarity diagrams Diagrams detailing sensor output polarity are shown in Figures D 1 to D 16 These are based on SAE 211 24 ISO 2011 All rights reserved ISO WD 15830 3 M ELHZIM STH 3Z1 amp d 27 317 ER ANI NOLM d ai l 10 81 EJLJ7 0137 5 1 11 HLDIITNJMI al r1 B FI TIAN TEHE 1 T 51220 dd af Eo a Tow TIT 32814 8341 000 1 5 508 1l 298 34 11 99 Od _ Sed 11122 Ova 0150 1904
5. ym 1 ORANGE EXCITATION CHANNEL 2 51520005000 e T Pees 2 RED STRIPE 4EXCITATION MUS RN 2 BLACK 4SIGNAL PNY PING CHANNEL TD 2 4 2 CHN PIN COLOR FUNCTION 1 4 CHANNEL 1 X IRA 7116 ome oomo 2 55 55 2 gt Y ones 3 m ADDO 0 2 4 SHIELD GROUND CHANNEL 3 7 PIM 7 GUIDE NE TATE 2 72 a 2 EXCITATION PN 3 3 CLEAR CHANNEL ID GNE 3 Varr Figure B 8 3 channel connector to G5 DAS configuration shown was only used in some WorldSID assemblies B 8 Universal neck load cell W50 71000 The two universal neck load cells are used to measure three force and three moment channels near the occipital condyle and T 1 first thoracic vertebra or the base of the neck In the upper neck position occipital condyle the load cell attaches to the base of the skull instrumentation core and the flexible neck element In the lower neck position T 1 the load cell attaches to the flexible neck element and the lower neck bracket B 9 Sacro iliac load cell W50 71130 The sacro iliac load cell consists of two 6 channel load cells left and right manufactured as a one piece unit The sacro iliac SI load cell forms the structure within the WorldSID pelvis that joins the left and right iliac wing
6. 544244 514 624 54 Depas cues 3 4 2 Permissible internal data acquisition system 5 2 2 7 421 2 44 M RR 7 4 22 TII 8 423 DAS mass and mass distribution RR EU VS 8 5 ME ROU Sa a EN 8 5 1 Calculation of IR TRACC distances from the IR TRACC voltage outputs 8 Annex A normative Load cell 2 8 nnnm nana 10 A 1 TEE mem 10 A 2 SIGN CONVENUNOINS 22112 2254 85 00424894 S 10 Annex B informative Conventions for exemplar permissible load cells and angular displacement Jic je a a a a a E E a a 15 1 LR 15 2 Repeatability and 15 B 3 0 mew TD 15 B 4 P 15 B 5 15 B 6 EE NE es a e 17 B 7 Load cell connector 255 0 454 8 eco 17
7. 5 1123 4901 Ai indino TE ZW QvO1 3ALISOd 803 3NIdS JHL OL 5302804 O3llddY JHL SLYYLSNTI NMOHS S3XV JHL Zi 21 ISO 2011 rights reserved Figure D 10 Lumbar spine load cell 34 ISO WD 15830 3 oCcLLZ OSM r MY 1708 M3153MOUM mew nwo NOIN3O 18380M ONLI HILN CTH SLANI NOON AC 0 Sa ISN SEU WHS 7 SEWE lw SAS SHIT Sid TiMHL 328385 BIO HDI OAL 1313119325 INAH 37Wn J39 d JHL OL NI 041238 e MOLO3A 30803 Y SIN3S3Hd3N JHL 30 1nO 0319380 Liz 395 104 1ndino H0123A 35404 V SIN3S3Hd3N TES 0701 OVIII ONOVS ISO HOM NUILN3ANUZJ NOIS 375 Ol AllINV Ud LNALNO JVITI UBOVS 3Hl 22918 NI 13474 NI YAWN 39v 31NI 21814 1431 0 db ZW 32 38 21814 1 918 NU ZW MVHWOT 39v INI JENA 1431 NO HSNd 32994N31NI JIENA LHOIN ND INV Agn 7704 22914 NI 32918 NI AVERT INIA 291711 1337 30 3003 NO UBV ANADI HSnd XW 70H LHIIY 30 3903 401 NO GeVA ANADUI HSMd CMVANADU WENN Ted 2VITI 1331 74 XVAN THVANADI 2VITI 15918 24 CYYALHIINY NVGHOT T39 A1331 WINI L431 337 1 29171 1H9IM 43 CAVAMO4 HVE
8. 7703 W31SAS 01 JHL HLIA 31499 LON AVW W3LSAS 3IVNIGSDDO 38313W0831322V JHL LYHL HONS S39NVH2J NDILVINGINO JHL JHL DINI 311915 SI 2313405373225 JHL 7 q3138V 38V S3XV 83L3WDB83 13 9 0VIXVIMIL 28924 JHL SWAv DSAC NVDIHJIM STH N3LS3H2DN 282 31 0 4 ONI NOIN3U 1353808 wa ILIV SIIMIT NOISNANIG 460 5319 52002 48 5 4 SAANA TW 3AUNJN 6010 SWING 32414 33MHl WHO 02 HSINLJ 32V 0100 3Ov1d OAL 31412345 3814 3 10 SS37Wn 5449 0584 30 133HS lOOZAVWZI 3181 1 SUN cms NDISIA3N M3MO1 WHY 11014 dav JIWH 313130 WAS 114 3 5 104100 83130331329vV 5 803 JHL 01 5358014 03144 30 NOLO3MIO JHL 5 NMOHS 53 JHL SWAY TINA 4 831340233 1322 WHY 3401 way Tins 8 31 3AU3 3 1322V Wav 11014 Figure D 7 Arm accelerometers 31 ISO 2011 All rights reserved ISO WD 15830 3 NYOIHJIM STIH 3LS3HOUMH 00019 05 1 30 1X480 OMELET HIL C13H SLIWI NDISN3WIG S3 TONY S WWIO3I 32914 338Hil S WWIO3I 32974 OAL 53003 dBVHS SHNDE TY 3ADW3N 000 3 329385 0101 3 131312385 3SIAN3HID 5531 JO L L33HS N
9. NDILOJeIG GavMaVas NI AQSN 3SV8 INDS3 13 NDUILJ38SIG GAVAMLHOIS NI AST OHS 1431 L29VdWI KA NOILIJAIC GBVAN ADU NI 418 40 dOl LOVdwI 29 NOILOJAIG GaVMLHOIS NI 414 3415 1331 LOVdWI NDILOGSIG GQeWwA eD NI XVYOHL SD 815 30 4938 12994 XV 3ena3onued SIHL AOS I3IN3WWD23e8 SI a3WWvH agn Y VIVI JINVNAG DONIL23 CISC HOA ONILIVdWI 3523H2 38 LSNW S3 3 13WD831322V 3VS 3313W08313229V 3AILISUd 503 SNDILV LN3WNE3S ADE ISO 2011 All rights reserved 28 ISO WD 15830 3 JOV8 L 3 OGM ONILY Id 3139 SIIMI NOLISNGWIG T 53 DWY 53043 dHVHS 3 sana 1179 T 519 1134 32 74 HL LM HSINI3 379 ds 32474 GAL 31411345 35 5537 OOWMI eI 0008348 LL f SVS SJILINYIOd INSWS0VIdSIO dd 01501830 12 7 3 5 M3d INdLNO OOvel Hi JAILISOd HO SEIN 33Q01nOHS OL 1433214510 30 3HL 2 NAOHS S3X JHL 50 NI X HYOHL QHVALTTI 5819 3 1 0 5 3015 HSfld AQ NOLLO31J30 3ALVO3N T Q3 23H2 38 ISNA 104 3015 1 IHL lOVdWi 3015 301d NI XVYOHL QMVALHOIM YO H301n0HS 3015 1431 HSNd Ad 10 3015 1331 NHOSN3S TTZ T 395
10. T1323 OTT JHL NI SONG WALH 3IIS IMVOHMI Hod 3015 CMVDENI Iy LHS TWI MI 1331 XIIS Ad SALLWOSN SX Id 30804 20 MULLVOLlddV 38 ALT 1Od LAL 51 11 3AILISDd 5307005 M3 40 NIYAN TC HOTEL A343 LHI NI BMG 305 NDEN HS d AJ HEN n SALLWOSN iit DNS 40 NWULLVOI ddV AH 38 LVHL SI 11 3AILISDd IVHI 37503 13 30 JHL HL 3015 3349 1331 MI HAHA 3015 1239 81110 YID 3343 1131 TED 901 3384 3AILISD d 503 SHOLLYTIJINYN 1 3 0135 4008 2 Figure D 15 Knee load cells 39 ISO 2011 All rights reserved 57732 0907 VIEIL NVOIH2IW STIIH N31 3H2DN 31v ae 0101 05 1 WE NOIN3Q0 V 19380 HIL 13H SLINI NOISN3WIU A 537 ISO WD 15830 3 32914 DAL A3IA LNOS 4 20833 PIN LaF TRE 24 395 E X4 3w s 434 1 104180 28 34 1132 8901 3AILISUd NOILVINSWNALSNI VIEIL CISC 1804 1003 3HL OL 533803 1317449 40 NOI1238IQ 3HL 3994 3HL D
11. euo cca oe a e 29 Shoulder load Cell POI I I LIT 30 1 AIIM S AS AOS RAR un depen A 31 IV ISO 2011 rights reserved ISO WD 15830 3 Figure D S Arm Sensors 32 Figure D 9 Pelvis acceleromoeltels 33 Figure D 10 Lumbar spine load 5 34 Figure D211 Sacroiliac load 66ell s 0 2 USE o EHE 35 Figure E 36 Figure o Femoral NECK IOA CONS E 37 Figure D 14 Femur anu d adora atado du deu taeda aa 38 Figure DNS 39 Figure INSTRUM GIN 40 Figure D 17 Tilt sensor channel orientations pau vec ra 41 Tables Table 1 Permissible WorldSID sensor locations and specifications 2 Table 2 DAS mass 8 Table A 1 WorldSID load cell 10 ISO 2011 All rights reserved V ISO WD 15830 3 Foreword ISO the International Org
12. 51133 901 WIS HL 803 VIVO JHL 40 IHL 39979 NI 73 18981431 1811 319108 SNWS4 OL UY INDIGNSdaSd VIGIL 33914 NI N31NVH2US1 IINA AW 339174 NI 0 DH 189814131 33NDI XH CYAN SIA 13 TavAd04 JINA 23 437 BINVHOJDOMI TavALHOIS QaMV ANADU 331NVHOUBL IINA indin TEJ 3ALLISDd Mi JHL SO31 Di 532813 30 WOLGA 1337 14 38V SNULIVOYYdINVMW NOULLISDd 131935 9 31VMISIITII NADHS SDV JHL NI 01 144 SNOLLYTNJAINYW 7 2 DL 2 1ndLn u 77133 907 3AILISDd 404 SNOILVINdINYW 1 3 935 AMDE 2 COURE CQ 18 10170 TG 3AILISUd 804 OL 532 14 30 NOLLIS A31WMLSITTN NAS 53 GH Figure D 14 Femur instrumentation ISO 2011 rights reserved 38 ISO WD 15830 3 CERT pumps xu pes NOIN3U w 143804 D e unma t avaan ALTa 10d 33 015071408 Wd 1 30803 V SINSS3Hd3M Wd HL 30 LIA HDLO3A 32803 1N3 38d34 VIEL HOLLISDd T31V35 V NI SH3L3MDIIN31U0d INY WS HITA IHW BED TT IS a Y a ONY INVDENI 23 1331 HL ALI
13. ISO 2011 rights reserved ISO TC 22 SC 12 N Date 2011 02 10 ISO WD 15830 3 ISO TC 22 5 12 WG 5 Secretariat AFNOR Road vehicles Design and performance specifications for the WorldSID 50th percentile male side impact dummy Part 3 Electronic subsystems V hicules routiers Conception et sp cifications de performance pour le mannequin mondial 50 me percentile homme de choc lat ral Partie 3 Sous systemes lectroniques Warning This document is not an ISO International Standard It is distributed for review and comment It is subject to change without notice and may not be referred to as an International Standard Recipients of this draft are invited to submit with their comments notification of any relevant patent rights of which they are aware and to provide supporting documentation Document type International Standard Document subtype Document stage 20 Preparatory Document language E C worldsid 200901 ISO 158301201 10201 50 WD 15830 3 20110210 format reviewed lcr doc STD Version 2 1c2 ISO WD 15830 3 Copyright notice This ISO document is a working draft or committee draft and is copyright protected by ISO While the reproduction of working drafts or committee drafts in any form for use by participants in the ISO standards development process is permitted without prior permission from ISO neither this document nor any extract from it may be reproduced st
14. 06 7 yd Sel 1111 1413445 III 9 SIhd amp ddcde X 35 AHL 1111 1111311 J3J4DL4 v tlk ASdde Jt v LIATIN SONG 5 ALl 41 SHlbdb 1 312357 OLS 14 OL ux ur TOHISHJANTJ 241 LYYHO 594 IIU 5 3 1 W4LSAS 4 1 441 411 34849 SILL 5 5 159 11 a 1 3 3 13209 LYH FINS 54149 21 159 NEAL 1 1 H CLIMI 211615 51 8 14 31 3229 SHL KARA zv Ly 2345 Sake 4391 4033 3229 8392 231 Ml 1 0 4 1421 0012 291 08494548 KI 093 0 ML33 dol 135481 YOILISSIL LIDIA OSH 40 1 41 115481 Jae ASMOC UY H AU dll 12194841 RD 25810 OTA BE OFS4 JO 1115 1351 141941 Cav SAO RI Ovo 0 aves 24 9 ad XM Je 12320 4 5141 5303 134 214 SI 434454 sagre WIN ZMILJIO Jo Che 1924 1 511 06 ONT dal 1 gt 2 48 IX 3 AW 19 1322 2 395 174 4 114 1 41 4 1504 Id LM 34033 AID Am ge ders PLA 174 0 8 144 1 3259 tO gel 1L OL 51494 1 T4lide HDULLZ3MIC 3H TISAI WATAS S489 dH _ S Figur
15. 11 Knee contact load nennen nnn nn nnn 14 Figure B 1 Humanetics formally Robert A Denton WorldSID instrumentation 16 Figure B 2 Connector wiring 31 pin 6 17 Figure Connector wiring 21 channels 17 Figure B 4 Connector wiring 15 2 channels elbow load 18 Figure B 5 Connector wiring 15 pin 1 channel side exit pubic 18 Figure B 6 1 channel connector to G5 DAS configuration shown was only used in some WorldSID ipei Ne M 18 Figure B 7 2 channel connector to G5 DAS configuration shown was only used in some WorldSID aS SEMDEG ge 19 Figure B 8 3 channel connector to G5 DAS configuration shown was only used in some WorldSID 15142184 uuo dur 19 Figure C 1 Linear accelerometer 23 Figure 0 1 Head 25 Figure D 2 Upper neck load 26 Lower neck load d Pu a 27 Figure D 4 Thorax 28 Fidre D 5
16. ion trumentat la ins Figure D 16 T ISO 2011 All rights reserved 40 ISO WD 15830 3 CN n 6 Body segment manipulations for positive load cell output Head Hold upper torso in place rotate head toward right shoulder AY Hold upper torso in place rotate head toward rear Thorax AX Hold lower torso in place rotate upper torso toward right AY Hold lower torso in place rotate upper torso toward rear Pelvis AX Hold legs in place rotate pelvis toward right AY Hold legs in place rotate pelvis toward rear Figure D 17 Tilt sensor channel orientations ISO 2011 All rights reserved 41
17. B 8 Universal neck load cell 50 71000 19 B 9 Sacro iliac load cell 0 50 71130 2 n FLU gU 14428444 54 4420 19 8 10 LumDar load W50 7 1120 2 5 0145 025841 ca euo da Cus cu 8 2025 20 B 11 Pubic symphysis load cell W50 71051 aee ei eurn una o cua nonien aane 20 8 12 Femoral neck load cell 50 71080 ce Ie pietre au usu veu ev cu o pulo pa apa RE sive ra 20 813 Universal leg load cell W50 71010 20 B 14 Shoulder load cell W50 71090 Cos RED 20 B 15 Universal arm load cell W50 71070 20 load W50 7 TOGO uaa VE daa vix avv AE aaa a aa aaia EEan aes 21 Knee contact load cell W50 71020 a 51 deeds 21 Annex C informative Conventions for examplar permissible accelerometers 22 C 1 lll P REM 22 C 2 Linear accelerometer connector pin codes
18. Hills Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 6 Load cell model W50 71000 see ISO 15830 2 Annex C is a product supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 7 model IF 363 see ISO 15830 2 Annex C is a product supplied by Humanetics formerly First Technology Safety Systems Inc Plymouth Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 4 ISO 2011 All rights reserved ISO WD 15830 3 R TRACOs shall have a mass of 117 g 15 g including the connector and 300 mm of cable Calculation of IR TRACC displacements shall be performed as described in 5 1 4 1 3 7 Shoulder load cell measured shoulder forces shall be measured using Humanetics formally Denton load cell model W50 710909 Shoulder load cell shall have
19. SIN3S3Hd34 NOILNSANO9 NBIS M F 395 5 ALTa 108 LAdLNO 1132 901 JIANA JHL TAVAL 9 1331 1 13 LH IJ Indinog 7733 0907 SATITSOd 03 SNOILV 1132 4901 SNIA 2 1431 1132 OVO 104100 7139 0901 3AILISOd 503 1139 8901 JHL 30 3015 3Hl OL 533403 T3I ldd 30 NDILO3SIG 31 1 5 53 3Hl SNM Figure D 12 Pubic load cell ISO 2011 rights reserved 36 ISO WD 15830 3 lid NOIN3O V 14380 seen mL o OTT TFS 08811474 SLNN MODXNOMOU AE oO 2 TW 0 90 54108 0319040 8 A ede EE qq I ar ae OL DEGLI OU rue NOLOGA 30804 V SINS 39v 40 INO 03103010 ye 112 0 5 834 104110 NOIO3A 32803 V SIN3S3Nd3N 51133 QVO AOIN QISQT1H8OM 71122 HIIN WaOWS4 1431 I39NvH2 38 LSNW T3NNvH2 NOILN3ANOD NSIS 118 395 01 74 9190 3Hi 11 7 JHL SWADJNOD NOILISOd 1 13 1 NI 1131 0901 NUILN3AND2 915 WS Di B XOIN WIDOWS N04 9190 40 ALIVIO H1 B 4 SIA Gd 4 1431 74 CAYAN SIAT3d
20. TAVADA ANWIA 274 SIA Bd 04951431 34 1331 03 1431 SIA 3d TNVAIHOIM N W34 1HOIM SIA13d TAYMNADG YNWS4 14331 QNV N ADGI 51 134 NnWid LHOIN 1131975 V SOs 38V SRUTIVTTdINWR TT22 WU SNOLIVIndINVW 7732 0901 NOSN TvNUW33 1431 SNUIIV 41 7112 0901 NIIN T9NUW34J LHOIMN 13 NOILISOd 031935 V NI 3Hl HLIA 1133 01 3AILIISUd 803 34 1 918 01 532804 3riddv 40 N DOILOeIG 3HL 9 5 5 S3XV JHL NOILISOd 131935 V NI SHI 71132 avon 3ALLISOd X04 1431 HI OL 3230 40 3 3HL 31 VMLSITTII 71 NAOHS S3XV JHL 1132 09111 323N 1 33 LHI 931 T 1133 4 01 X23N TDA Ad 37 Figure D 13 Femoral neck load cells ISO 2011 All rights reserved ISO WD 15830 3 TEI DWI ELS HDS LINE SESSEL Nonio WE mm PCs ais V D TW 10 Rvs V EWON OAL 18 WS aad 104110 NOILYLNSWNALSNI 833 CISC OA CIR ALIJA IRI V SLs X 110 1 31414 V SINEAD NULINGAND2 NOIS IWS SWH U4NDO 937 LHI ONY 1331 JHL HIDE
21. cells shall comply with the sign conventions shown in Figures A 1 to A 11 10 ISO 2011 All rights reserved ISO WD 15830 3 48 7 1h33 MF 2 70 rz T 50 0 2211 LEFT 20E CHANNELS CONNECTOR RIGHT SIDE CHANNELS CONNECTOR Figure A 2 Sacro iliac load cell rs FY Figure A 3 Sacro iliac load cell right side top and left side views ISO 2011 All rights reserved 11 ISO WD 15830 3 50 0 1 97 SQUARE Figure A 4 Lumbar load cell 36 0 1 18 25 0 0 98 i STANDARD CHANNEL FY Figure A 5 Pubic symphysis load cell NOTE The polarities shown here are the same whether the load cell is used on the right or left side Figure A 6 Femoral neck load cell 12 ISO 2011 All rights reserved ISO WD 15830 3 88 0 2 57 4 R Fa oe 1 87 NOTE The polarity shown here is the same whether the load cell is used on the right or left side Figure A 7 Universal leg load cell 2 1 55 The polarity shown here is the same whether the load cell is used on the right or left side Figure A 8 Shoulder load cell 47 1 Bj Fa NOTE The polarity shown here is the same whether the load cell is used on the right or left side Figure A 9 Universal arm load cell ISO 2011 All rights reserved 13 ISO WD
22. given in Table 1 If these sensors are not installed then structural or mass replacements shall be installed in the dummy 4 1 2 Locations and specifications Table 1 Permissible WorldSID sensor locations and specifications Body region Sensor Mounting specification Maximum specification number of channels Head Upper neck load cell 4138 fo 6 Eu fuam Usseramicageat Fam tweamse 0 OOD e 2 ISO 2011 All rights reserved ISO WD 15830 3 Body region Sensor Mounting specification Maximum specification number of channels Lumar sarapane umerswepes sorozas _ _ umewamdom Lew iwemamdon sowas _ 4 1 3 Sensor specifications and mass 4 1 3 1 General All load cells accelerometers and angular displacement transducers shall comply with SAE J2570 and load cells shall comply with the capacities and sign conventions in Annex A Sensor sign convention should comply with SAE J1733 and all deviations shall be noted 4 1 3 2 Tri axial linear accelerometers f measured tri axial linear accelerations shall be measured using Endevco accelerometer model 7268C 2000M1 ri axial linear accelerometer assemblies shall have a mass of 8 g 1 g not including cable 4 1 3 3 Rot
23. have a mass of 145 g 10 g not including cable and mating connector 4 1 3 13 Sacro iliac load cell measured sacro iliac forces and moments shall be measured using Humanetics formally Denton load cell model W50 7113014 load cell shall have a mass of 1062 g 75 g not including cable and mating connector 4 1 3 14 Femoral neck load cell f measured femoral neck forces shall be measured using Humanetics formally Denton load cell model W50 7108019 Femoral neck load cell shall have a mass of 240 g 18 g not including cable and mating connector 4 1 3 15 Leg load cell f measured upper and lower leg forces and moments shall be measured using Humanetics formally Denton load cell model W50 710101 12 Load cell model W50 71120 see ISO 15830 2 Annex C is a product supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 13 Load cell model W50 71051 see ISO 15830 2 Annex C is a product supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the produ
24. information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 18 Potentiometer model W50 61027 see ISO 15830 2 Annex C is a product supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 19 Potentiometer models W50 54012 W50 54052 and W50 54051 see ISO 15830 2 Annex C are products supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 20 Temperature sensor model DS192H Z is a product supplied by Dallas Semiconductor This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results ISO 2011 All rights reserved 7 ISO WD 15830 3 4 2 2 DAS characteristics f in
25. the shoulder B 15 Universal arm load cell W50 71070 The arm load cell is used in two locations on each full arm assembly The load cell is positioned in the middle of the upper arm bone and in the middle of the lower arm bone The arm load cell measures three force and three moment channels 20 ISO 2011 All rights reserved ISO WD 15830 3 B 16 Elbow load cell W50 71060 The elbow load cell measures two bending moments channels in the upper arm assembly at a point just above the elbow pivot joint B 17 Knee contact load cell W50 71020 The knee contact load cells are designed to measure direct impact to the knee from an external source as well as knee to knee contact forces Two knee contact load cells are used on each WorldSID leg The knee contact load cell measures one force channel ISO 2011 All rights reserved 21 ISO WD 15830 3 Annex C informative Conventions for examplar permissible accelerometers C 1 Overview Development of the linear and rotational accelerometers for the WorldSID was sub contracted to Inc Designs of the accelerometers were primarily driven by space constraints mounting requirements signal range and frequency response It should be noted that different connector configurations may be found in different WorldSID assemblies thus connectors shown are examples only C 2 Linear accelerometer connector pin codes Linear accelerometer pin assignment is shown in Fig
26. 0 OAs 1431 CavAPIL avd 4 1 Xl 15342 OF H gc Tavs IFO 15343 431 4298 15340 IBw Hvdad Act He P EIA 11742 1122 0921 3A AILISDd 414 SNL wv Od NVA 2025 AUCH Dros 124 TET AUN 9 qus MALA ANI 54 id 104 19 T 3z 0927 FALISTA 7 2H 04 HIIN 21 21 53230 24 Cal dev JO WDLIL2231 JHL 3195 57771 NADIE Saxe JHL a 27 D x XV IMS 30804 JU 44 41 he x4 d 4 7722 111514 _ 4 34 3 1 _ 832814 7 gt 311 45 241 477 24 3 984 85771 5 53 9 2 1 Figure D 2 Upper neck load cell ISO 2011 All rights reserved 26 ISO WD 15830 3 HIIN 33A D01 NVSIHJIN S TH SSLSSHIOU 3190 NS WAS QE A C Y e 3Ovd 3H1 DINI 03 33310 NOLN3G V 133809 0077270 SLINI NOISN3WIU 46 0 S319NV 109 280 9 SOLOIA 30803 V SINISIN JJA X SM 0307395 ISIALCHLO SSW 30 1 43133310 ASIA 14044 208 41411 a 7 123 32803 V SIN3S3Nd3N 24 Xj 295 Nad inding ZW A aia ZW 1132 0907 JAIN AJADI 50780 x3 ln 1133 3ALLISUS m 1
27. 15830 3 MY m m E ES NOTE The polarity shown here is the same whether the load cell is used on the right or left side Figure A 10 Elbow load cell 65 0 2 56 PAF 1 NOTE The polarity shown is for the left side knee For the right side the polarity shall be the reverse of what is shown Figure A 11 Knee contact load cell 14 ISO 2011 All rights reserved ISO WD 15830 3 Annex B informative Conventions for exemplar permissible load cells and angular displacement sensors B 1 Overview Development of the load cells for the WorldSID was sub contracted to Robert A Denton Inc currently Humanetics Designs of the load cells were primarily driven by the number and type of channels capacity for each of the channels including overload capacity and the body part design into which they were incorporated The load cells and angular displacement sensor available for the WorldSID are shown in Figure B 1 The design intent was to minimize the number of types of loads cells in the WorldSID The load cells in the spinal column the upper and lower neck load cells are identical and are identified as the universal neck load cell The lumbar spine load cell was originally designed to be interchangeable with the universal neck load cell but design constraints within the pelvis made this impossible in the final design The load cells in the legs the femur and the upper and low
28. 317999 30 NOLLO3SIT JHL NOILISOd 33AD1 3HL NI 9 3191 58771 NAUHS S3XV JHL OL SWHO4NOD 11 91 4 1132 0901 03 0 15 100 5 A JHL 40 3599 JHL 40 N31N32 BHI 19 SLNSWOW 53113104 83197112192 JHL 3 2 2 W AW 73 4 ONY 1133 0907 23 4301 JHL T3aNSV3SW SLNSWOW ONY 539505 JHL 349 gt _ _ _ __ nA a i ney 3HA SNDILVOB3 NOLLVYWAOSSNVAL 19 HIIN 3Hl 3599 3H1 OL V LNIOd 19 11252 JHL AOU LNSWOW U3eflsv3WN JHL 8245 9 1 OL SNDIILVOD3 1133890 1 3 1139 901 JIAJN AJADI 2053 SNOILVASS NOILVWAOSSNVSL 430 INOHS 1441 CaVAOL ZW WONASLS CAVAOL AW adc INOHS 1331 1441 XW XW m AW CAYANAOG LS3H3 Z A IMV AALIHOIM 153 3 4 1431 523N Adr 1133 0901 3AILISDd Aj LS3HO XIAN 04 HIN OL 532404 ZW 131144 30 NDILO3SIC SHL X4 ZW 3VS LAdLNO 1133 4901 3AILISUd 23 31931501111 NADHS S3XV JHL 503 SNOILVINdINYW 1 3 35 74 27 Figure D 3 Lower neck load cell ISO 2011 All rights reserved ISO WD 15830 3 099 2GLSGHOUMN E LINI 82 97 3190 WAS NOLN3G 183808 ZW 1538809 v AVIA LN
29. 329V SIA 13d Xv A NDIL238IG GAVMNAOT NI 5 01 12VdWI ZV 33810 GAVMLHOIA NI 139 30 3015 1331 13 4 1 AV NDIL238ICT CYANO NI 51134 30 89384 LOVdWI Xy 5 803 33 SI 3WWwvH 3388 9 VIVI JIWYNAC ONIL23 11023 ANY SIA 3d CISC 10A 9NILOVdWI I3503H23 38 LSNW S3313WD831322V 295 add LAdLNO 33130383 14239 3AILISUd aD SNDILV IndINVW 1 349358 AMDA 33 ISO 2011 All rights reserved ISO WD 15830 3 oz L LL 05M f uwo NOIN3O V 1340H HILN UH SLI MISKON xeu dee oos e MEG JHL OL NI 0319330 LX SR 31 D HOLJ3A 30H04 SiN3S3Hd33 x MOLOSA 30803 V SLN383Hd3 IYS 834 ARYIOd 14410 TI39 0 01 3NIdS YANN 15018 CIYAYI N31 1337 GavAad04 N3I11Y0HS 1H9IB ZW 5937 30 1 083 TAaVMOL WINB3IS dIH 1337 N3TmpHS 1431 SIA 139 153 0 23 514134 13914331 153 3 CAVANDA 50739 18988934 153 3 We r 395 SWaO4NO9 1132 0907 3AILISOd 503 1132 0901 IHL 30 SNOLIYINdINYW 1 3 935 AIDE 24 2 l1ndino 1132 ZN QvO1 3ALISOd MO3 5138 3HL 01 532 04 ZN 30 3I WHLSNTTI NMOHS S3XV JHL Ad XN AN I aM LEES ESSA TEE 1 5 lt mr
30. 3410 JHL AW SLVALSNTVIT NADHS S3XV JHL ZW XW 43134043 1322V 1519 1133 901 3311 13229 AOE 13 1132 395 7139 4901 3A ILISOd 203 YsqINOHS JHL OL 532903 Galldd N OLLO3SIG JHL ALVALSNTI NAOHS S3XV JHL Figure D 8 Arm sensors ISO 2011 All rights reserved 32 ISO WD 15830 3 NYSIHJIM STIIH M3LS3HOUM LINI 31vd NDISI A3 WAS O T 1 30 LM3BOM WGENIN WHD m ufsIiNOILOnaQNd 3Hd OL ONILV d 83139 03H SLIWI NDISN3WIG 3 STONY KI 503 dHVHS SANNA TIY 3ADW3N 3 SNIO3U 329174 33WHl HSINI4 3293815 3 819 1231 32914 OAL 31412345 3SIA W3HIDU 553 LL f AVS AllJviOd LAdLNO 4313AO9831399V SIAl3d COSCO IHOM UN 53 E 3NID838 39NVH2 SIXV SIXV ALIMVTDd 3313D331322v 150 790 NUISN3ANUO 03811034 S3IIAUNd LAYHI 1704 JHL W3lSAS 31VNITNDOUO 019 3Hl HILIM 33899 LUN AWW W3lSAS 19 3N313WD3313J0v 1H1 HONS S3ONVHO NUILVINGINU 3Hl TISTT4DA 3Hl OLNI 3 11915 1 SI amp 313WDS31309V JHL NIJHA ZV 313991 JAY S3XV 8313WD0 831322V WIXVIdl 88922 3 1 LNOYS 3OVd JHL OLNI 03133410 30803 9 SLN3S3 d3 X jOVd JHL 40 13123410 33803 V SLIN3S3ed3ed e 2277 Figure D 9 Pelvis accelerometers 33134083 1
31. 6 g 20 g not including attachment bolts or plug or 361 g 25 g including mating plug and 450 mm of cable 4 1 3 6 Infra Red Telescoping Rod for the Assessment of Chest Compression IR TRACC measured rib deflections shall be measured using Humanetics formally FTSS IR TRACC model IF 3637 2 Accelerometer model 7302BM4 is product supplied by Endevco Corp San Juan Capistrano California USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 3 Head tilt sensor model IES 1401 is a product supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 4 Tilt sensor model 260D GP X is a product supplied by MSC Automotive Gmbh This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 5 Thorax and pelvis tilt sensor model IES 1401 T is a product supplied by Humanetics formerly Robert A Denton Inc Rochester
32. CYAN ITI 1331 GAVAYI HYEHNT CavAdO4 DNIA 29171 X3 5311149 1132 0901 JVI 099S SaL 10d 1133 0901 29111 08095 SIAI 7733 TOT 2I d WIFI OL 7733 INJ JARS TT33 0907 803 mmi TTS OT 3ATIISUd 303 SNOLLYINdINYW 77132 0901 DIU 3015 1337 SNOILVCOIdINVM 71132 0901 29171 3IIS LHOTS 1 1 0 7720 0907 111504 CJ INIM OVI 1337 3 532803 037997 30 NDILO3SIIU alvalsnTi NADHS 53 771232 IVO 3AILISUd aod 29171 JHL OL 533803 30 53810 JHL 19 150111 NADHS 53 SHI NAA ae Figure D 11 Sacro iliac load cell 2 133 NIM JY 77132 007 2911 0425 25 8 1331 329 3H31NI 2184 1912 35 ISO 2011 All rights reserved ISO WD 15830 3 050 L 0SM h E errans diia ge Ws asl Ex ERR ONI NOIN3Q V 183808 801 Y T E E ww Bt 9 732 5 7 717 vd mar 1133 901 3AILISOd 112 0 YS H3d AllHvliOd 11141 1132 ayol 28Na 501 4 1142 0901 30 3015 1431 3H1 OL S3230J 0317 40 123410 JHL 9 5 NADHS 53 3HL JOVd JHL OL 93410440 e 33803 SIN3S3Hd3MH 40 LNO 43410380 x YOLOSA 39803 V
33. INI 13123310 3195151771 NADHS 53 JHL 123 33803 9 SIN3S323d33 9 3Hl 30 100 03133441 8D123A 33803 V SIN3S3 3da33 qsvAIHOIS JOHS 301 794 JOHS 30 1 1844 9 qav l43 JOHS 30 WOLLOH aad ASLAWOILNSALOd 3 NY SAILISOd 503 SNOILVINdINVW LN3W953S L392NVH23 38 15 5 I3NNVHO AW XW 803 VIVI JHL 30 NBIS 112 395 OL WAO4NOD DL 20 5 30 WOLLOE C3A 3IA N3H A 3SI AX2U120N31NDD2 1003 31910 7 329vV ld NI 33NY GavMs04 3 DINv AW NI 537 3 DNNV Qalg Adn JINA T NVANADI JTANY 735 I3VALiJ3 THVALHOIM 3 DINV Ast JINJA 3 7DNV X3 LAdLNO 1132 4901 VIEIL 83 U SAILISOd 503 IndINVA LN3WND53S AMDE 1133 901 VIEIL 434 3UHS 30 WDLIDS WOU 3AGIA 3SIA 2012831NDnD23 1003 319103 7 32 1 NI 33 3 VIGIL AW 32914 NI 33NY 10H CAVALA VIGIL XW JINA UBVANADU VIGIL 74 391431 JINX TNVAIHDIM VIGIL XW CUL VANY NA VIGIL X34 08 18 38 33 tavaan alt x4 303 HL OL 533404 i1ndin 1133 901 wISIL 43 199 JO 1133414 3HL SAILISOd 803 SNDILIV INdINYVW 1 384935 ACO 319815 7 11 NADHS S3XV JHL 14 ZW 23 X4 ZH
34. O amp s N313V 13H SLIMI NOISN3WIT B S03 dNVHS TV 3AOWGM 3 32979 33341 sever 804 MYON B 4313 04313229 211 77 HSINI4 3 STWHIJXI 32 74 DAL 2212 an e om wo 5 LL h 3 5 S3lLlsiv Tod SdiliNOHii4392V CISC 1 3994 JHL YOLIGA 33903 39Vd JHL JO 01431234410 AOLIGA 33803 AV 813 1331 Xv 818 1441 UN XAR o 44 43 51 9 10d 11340841414229 11501840 NDISS3ANDO 013811039 JHL S3GIADBHd LAVHI JHL WSLSAS GLY JHL 33897 LON W3ISAS 34313WD383134399v HONS S39NVHJ NOILVLNSIYNO JHL 011501804 3Hl DINI 1311 158 SI 3 313408313229V JHL N3H 313891 38V S3XV 3 54313339 WIXVISNL 889274 3Hl OLNI 03193411 v 51 3534434 X 1 352444 e 5831 34083 1322V WN I LV 104 S 113WD 33 99V als 24 Xy 77132 avol Ave a3mnoHs AM 83113WD0331322V Figure D 4 Thorax accelerometers 31340831322V 11 33910 089 1431 NI JO 3015 1HOIB 12VdWI AY 3 11993 V 50 1921144 9 HLIM 3523H2 38 112 1 AV 19 I3IN3WWDUO38 SI 11 S3313WD331322V EIN 14915 ONILSSL NI AL In21433Id 3HL OL 3010
35. OOTS OSMP uns 295 LAdLNO 355 9 0150 ISOM ALINV 10d 8431L3ND33 13929V WAY TINA 2303 2 0 SNI vVa 33S 32V ld NI WY 3440 davAdn wav 8131 11 104 ADE 13 NIHA JSI ADOD 19831NDD2 15188 319108 2 3274 NI ADHT3 TAVADA 1519 AW 32914 NI 13 T3V 1331 LSIYA XW CavAMNAMOG 15148 ADE 13 23 TAVALHOLIA 1518 TAVAL AOE 3 ISIMA IMVANV3N ADS 13 4 1133 0901 3 01 3219 NI 43011 8 CYANO ADETI AW 32914 NI e amp 3d71n0HS 337 0873 1133 901 AOE 13 INVH Q3A3IA 3SIM JD129831NnB2 AD813 31V1D ZW NI SSQ0NOHS AVANDI MODIS AW 39V ld NI SSC InDHS 337 ADS 13 XW CavANMOG 0873 d30 23 ADETI dqNVA LJ31 N37 n0HS 0813 CMY SSC 100HS X 4 1139 0901 Wav 3 LINI 597 3LVU WAS A 3IA LINOJ 23 ZW AVS aad LNdLNO 3AILISUd 204 SNUILY If1IdINVN LN3AD3S AANE X4 ZW Z3 OL WaD3NDO 5311149 10 1132 0 01 CNY WAY JHL SWAY 1431 H104 SNDILV 104 1 9 LN3WD3S ACOE 3Hl 31UN AANS SUIS Laai He d 1ndin 1142 4901 3AILISUd 7 ad INVH 3Hl 535404 Q3IlddV 40 112
36. a mass of 176 g 13 g not including cable and mating connector 4 1 3 8 load cell f measured upper and lower arm forces and moments shall be measured using Humanetics formally Denton load cell model W50 710709 Upper and lower arm load cells shall have a mass of 385 g 30 g not including cable and mating connector 4 1 3 9 Elbow load cell measured elbow moments shall be measured using Humanetics formally Denton load cell model W50 7106010 Elbow load cell shall have a mass of 300 g 22 g not including cable and mating connector 4 1 3 10 Elbow rotational potentiometer measured elbow angular displacement shall be measured using Humanetics formally Denton potentiometer model W50 6102711 Elbow potentiometer shall have a mass of 15 g 2 g not including cable and mating connector 9 cell model W50 71090 see ISO 15830 2 Annex C is a product supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 9 Load cell model W50 71070 see ISO 15830 2 Annex C is a product supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This information is given for the convenience of user
37. anization for Standardization is a worldwide federation of national standards bodies ISO member bodies The work of preparing International Standards is normally carried out through ISO technical committees Each member body interested in a subject for which a technical committee has been established has the right to be represented on that committee International organizations governmental and non governmental in liaison with ISO also take part in the work ISO collaborates closely with the International Electrotechnical Commission IEC on all matters of electrotechnical standardization International Standards are drafted in accordance with the rules given in the ISO IEC Directives Part 2 The main task of technical committees is to prepare International Standards Draft International Standards adopted by the technical committees are circulated to the member bodies for voting Publication as an International Standard requires approval by at least 75 96 of the member bodies casting a vote Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights ISO shall not be held responsible for identifying any or all such patent rights ISO 15830 3 was prepared by Technical Committee ISO TC 22 Road vehicles Subcommittee SC 12 Passive safety crash protection systems This second edition cancels and replaces the first edition ISO 15830 3 2005 which has been technically revised Technical ame
38. ational accelerometers measured rotational accelerations shall be measured using Endevco accelerometer model 7302 42 1 Accelerometer model 7268C 2000M1 is product supplied by Endevco Corp San Juan Capistrano California USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results ISO 2011 rights reserved 3 ISO WD 15830 3 Rotational accelerometers shall have a mass of 35 4 g not including cable 4 1 3 4 Tilt angle sensors 4 1 3 4 1 Head tilt sensor f measured head tilt angles shall be measured using either IES tilt sensor model IES 1401 or MSC Automotive Gmbh tilt sensor model 260D GP X Head tilt sensors shall have a mass of less than 25 g not including cable 4 1 3 4 2 Thorax and pelvis tilt sensor f measured thorax and pelvis tilt angles shall be measured using either IES tilt sensor model IES 1401 or MSC Automotive Gmbh tilt sensor model 260D GP X Thorax and pelvis tilt sensors shall have a mass of less than 25 g not including cable 4 1 3 5 Universal neck load cell f measured upper and lower neck forces and moments shall be measured using Humanetics formally Denton load cell model W50 710009 Upper and lower neck load cells shall have a mass of 34
39. cell forms the structure that joins the left and right halves of the pelvis bone at the pubic symphysis By application of a load cell at the pubic symphysis the data acquired may provide a better understanding of the complex interactions taking place in this area B 12 Femoral neck load cell W50 71080 The initial femoral neck load cell measures three forces at the junction in the WorldSID between the greater trochanter and the femoral neck The forces and moments measured are the total being transferred from either the leg or from impact to the trochanter into the acetabulum The inner surface of the load cell attaches to the femoral shaft and head The outer surface of the load cell is attached to the trochanter B 13 Universal leg load cell W50 71010 The leg load cell is positioned in three locations in the complete leg assembly the mid femur position and the upper and lower tibia positions The leg load cell is a six channel design that measures three forces and three bending moments B 14 Shoulder load cell W50 71090 The Shoulder load cell measures three forces at the junction of the arm and shoulder The inboard surface of the shoulder load cell is attached to the shoulder rib element The outer surface of the load cell contains the pivot assembly for the X rotation of the arm as well as stops that limit the range of motion This load cell measures the interaction forces between the arm and shoulder as well as direct impact forces to
40. ct named Alternative products may be used if they can be shown to lead to the same results 14 Load cell model W50 71130 see ISO 15830 2 Annex C is a product supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 19 Load cell model W50 71080 see ISO 15830 2 Annex is a product supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 16 Load cell model W50 71010 see ISO 15830 2 Annex C is a product supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 6 ISO 2011 All rights reserved ISO WD 15830 3 Upper and lower leg load cell shall have a mass of 470 g 36 not including cable and mating connector 4 1 3 16 Knee contact loa
41. d cell f measured knee contact lateral force shall be measured using Humanetics formally Denton load cell model W50 7102017 Knee contact load cell shall have a mass of 77 g 6 g not including cable and mating connector 4 1 3 17 Knee rotational potentiometer measured knee angular displacement shall be measured using Humanetics formally Denton potentiometer model W50 6102719 Knee potentiometer shall have a mass of 15 g 2 g not including cable 4 1 3 18 Ankle rotational potentiometer measured ankle x z angular displacements shall be measured using Humanetics formally Denton potentiometer models W50 54012 W50 54052 and W50 54051 respectively Ankle potentiometers shall have a mass of 7 g 5 9 not including cable 4 1 3 19 Temperature sensor measured thoracic cavity temperature shall be measured using a Dallas temperature sensor model DS192H Z20 Temperature sensor assembly shall have a mass of 21 g 5 g not including cable 4 2 Permissible internal data acquisition system DAS 4 2 1 General The following DAS may be installed in the dummy If installed it shall comply with the following specifications If the DAS is not installed then the DAS mass replacements shall be installed in the dummy 17 Load cell model W50 71020 see ISO 15830 2 Annex C is a product supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This
42. e D 1 Head accelerometers 25 ISO 2011 All rights reserved ISO WD 15830 3 HIJR 83440 rane 57114 rj 2190 AAT 10314202 iu380N ES OTH AEs 44 0 53 SHILA 19 IF DT JIC Hrid HINT 7 JES Cr 3491 MAL 1 14 4445 3t 43 LD 251M DUU Z e Et34dlE e 195 98 AL av Lidli oddac Heb e LIAN 1574 5 xb 049 IFO cll 41 99 T H AHL NAIA 7 GS v c SAHANI 852 00 1152 LLL ADS 42814 135 1135 8901 Wea INJWL4 4UM32 30 AJAY 4 143 H 4 1411 2 4 A 11 2 Teale 71732 0907 Wed 9 4 3 40477 TY nd89 EH i i EJ CODA A KW 3 x IAI D 1741 CFI 2H WOa NAO UI3EDSv3iW HA SNVdl DL ND LV NOLLJZS8EDZ zUwg 341 13123810 2111 Sed 9 SIWzszddjds 3984 3 1 30 100 LILIA AIJLISA 22812 514 5 8435 HIT TCHS 1 27 CAROL NIEJ Zl LS 14611 WIE 33
43. er tibia are identical The leg load cells are identified as the universal leg load cell The arm load cells upper and lower arm are interchangeable The remaining load cells of the WorldSID are unique in design Each load cell has self identification internal to the load cell for increased efficiency and accuracy The sensor ID component stores and reports the load cell s serial number and calibration data so that the calibration information for each device can be accessed by standard testing software B 2 Repeatability and reproducibility Load cell repeatability and reproducibility can be assessed by load cell calibration Repeatability and reproducibility are typically 196 of full scale or less B 3 Durability The load cells have unlimited durability for tests that do not exceed the full scale ranges of the devices Suggested cable routing procedures to protect cables and connectors are given in Annex of ISO 15830 4 Cable or connector replacement may be required if these are damaged during use B 4 Sensitivity All the load cells for WorldSID are strain gage based devices with outputs of approximately 1 mV V to 3 mV V before amplification These output levels are in the same range as other load cells currently used in the Hybrid and other ATD s The load cells have a temperature sensitivity of no greater than 0 06 of reading per degree Celsius over a range of 16 C to 26 C B 5 Handling All components are joined with metric
44. fasteners and allow the use of standard hand tools Assembly and disassembly instructions are described in ISO 15830 4 The load cells have a rigid cover or are encapsulated in a rugged plastic material and are internally sealed from moisture ISO 2011 All rights reserved 15 ISO WD 15830 3 0801 Z 06 M 0GM Jauueu 33 u3 132 195 peo 06114 05 apis Jad auueu2 aA a3 3 1139 peo 0 2 La 40 04 A 6S0 05 TLOPS OSM 4 OT 06 15 195 peo 4 ZZOL9 OSM Je8jeuu0 1u9304d 0913 0901 1 05 peo1 oqi3 0601 2 5 jeuueu2 aaJu 0202 5 05 yy je303 0201 1 05 2 195 1281002 1122 peo Japjnous 1 0 1 05 5 9 0001 05 2 5 peo1 OLO 2 05 J auuegu2 xis 22 peo7 uorjequauinajsu QISP 10M uo3uag H q Figure B 1 Humanetics formally Robert A Denton WorldSID instrumentation 150 2011 All rights reserved 16 B 6 Calibration ISO WD 15830 3 All load cells are provided with a full scale calibration data Data is provided for non linearity hysteresis cross talk and full scale output Re calibration of each device should be performed every year or whene
45. lder ISO 2011 All rights reserved 17 ISO WD 15830 3 ROW m RED 0000 wx 2 ORANGE EXCITATION MX 10 YELLOW SIGNAL Mx 3 GREEN CHANNEL IDENTIFICATION MY 8 J RED STRIPE MY 15 BLACK SIGNAL MY 7 WHITE RET SEES TS HRNNETTDERTIFICRTISR O _ MY 6 GREY CHANNEL IDENTIFICATION SHIELD 4 SELD EN is smeo 68000777 Figure B 4 Connector wiring 15 pin 2 channels elbow load cell CHANNEL PIN FUNCTION FX 9 GREEN SIGNAL O __ FX 10 WHITE SHIELD 4 SHIELD IGROUND Las Figure B 5 Connector wiring 15 pin 1 channel side exit pubic 1 RED JEXCITATION 2 4SIGNAL 4 5 SHIELD GROUND WHITE SIGNAL RAX Figure B 6 1 channel connector to G5 DAS configuration shown was only used in some WorldSID assemblies 18 ISO 2011 All rights reserved ISO WD 15830 3 ON FUNCTION LT I BOWI RED SIGNAL 3 GREEN CHANNEL ID 2 3 SHIELD GROUND 5 SHIELD GROUND 5 BLACK STRIPE SIGNAL 2 6 WHTE Figure B 7 2 channel connector to G5 DAS configuration shown was only used in some WorldSID assemblies 1 1 1 CHANNEL 1 _ 1 4 ae BELO YELLOW SIGNAL
46. ndments have been incorporated throughout all four parts resulting from extensive experience with the standard and design changes ISO 15830 consists of the following parts under the general title Road vehicles Design and performance specifications for the WorldSID 50th percentile male side impact dummy Part 1 Terminology and rationale Part 2 Mechanical subsystems Part 8 Electronic subsystems Part 4 User s manual ISO 2011 rights reserved ISO WD 15830 3 Introduction This second edition of ISO 15830 has been prepared on the basis of the existing design specifications and performance of the WorldSID 50 percentile adult male PAM side impact dummy The purpose of ISO 15830 is to document the design and specifications of this side impact dummy in a form suitable and intended for worldwide regulatory use In 1997 ISO TC22 SC12 initiated the WorldSID 50 PAM dummy development with the aims of defining a global consensus side impact dummy having a wider range of human like anthropometry biofidelity and injury monitoring capabilities suitable for regulatory use Participating in the development were research institutes dummy and instrumentation manufacturers governments and vehicle manufacturers from around the world With regard to potential regulatory consumer information or research and development use of ISO 15830 users will need to identify which of the permissive optional senso
47. or the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 8 ISO 2011 All rights reserved ISO WD 15830 3 Vm is voltage from the 3 Remove the zero offset from Vio V Vo where Vio Is the equivalent linear output input voltage with zero offset removed volts Vio is 0 when deflection is 0 Vo is the calculated V when deflection is 0 4 Calculate D V XC where D is the deflection mm C is the scale factor mm V ISO 2011 rights reserved 9 ISO WD 15830 3 Annex A normative Load cell characteristics A 1 Load cell capacities The WorldSID load cells shall comply with the capacities given in Table A 1 Table A 1 WorldSID load cell capacities Description Load cell Part number Fy Mx 2 Universal neck load upper 1 12 20 W50 71005 00 W50 71001 Z N 0 uensamweis 2 7 O1 13 1 1 Cus us wee rem _ Lumbar spine load cell 10 0 O 12 22 soron 200 EX al EW ES soron KES 3 3 3 3 3 A 2 Load cell sign conventions The WorldSID load
48. ored or transmitted in any form for any other purpose without prior written permission from ISO Requests for permission to reproduce this document for the purpose of selling it should be addressed as shown below or to ISO s member body in the country of the requester ISO copyright office Case postale 56 CH 1211 Geneva 20 Tel 41 22 749 01 11 Fax 41 22 749 09 47 E mail copyright iso org Web www iso org Reproduction for sales purposes may be subject to royalty payments or a licensing agreement Violators may be prosecuted ISO 2011 rights reserved ISO WD 15830 3 Contents Page FOLGWOLO cL 1218 212550 04 5022 cM O O vi em a vii 1 SCODO 1 2 Normative Tererencas ve odis PUE 1 3 TEMS ANO 1 4 Electrical subsystems 1 1 1111131 1111 1 11111 hann nhan nnn nnn nnn 2 4 1 PermissiDIe SOnsOLS x 2 5 202545 15052222 22525222 41 12 63 50332402 00855623 22354228 a 2 9 C MI DENN EDS 2 4 1 2 Locations specifications ctm 2 4 1 3 Sensor specifications MASS 2
49. r the World SID 50th percentile adult male side impact dummy Part 1 Terminology and rationale ISO 15830 2 Design and performance specifications for the World SID 50th percentile adult male side impact dummy Part 2 Mechanical subsystems SAEJ211 1 2003 Instrumentation for impact test Part 1 Electronic instrumentation SAEJ2570 2001 Performance specifications for anthropomorphic test device transducers 1733 Sign convention for vehicle crash testing UN ECE TRANS WP 29 78 Consolidated resolution on the construction of vehicle 3 3 Terms and definitions For the purposes of this document the terms and definitions given in ISO 15830 1 apply ISO 2011 All rights reserved 1 ISO WD 15830 3 4 Electrical subsystems requirements 4 1 Permissible sensors 4 1 4 General NOTE All sensors are specified as permissible i e optional because the decision to use or not to use a given sensor is to be left to the individual relevant regulatory authorities consumer information organisations and research or test laboratories In this way a given regulation or laboratory protocol can indicate which of the permissible sensors described in this International Standard must be used in a given test should also be noted that different connector configurations may be found in different WorldSID assemblies The following sensors may be installed in the dummy If installed they shall comply with the specifications
50. rs and other elements defined in Part are to be used in a given application ISO 15830 is planned to be available to the public free of fee in electronic form on the website specified in the text In order to apply ISO 15830 properly it is important that all four parts be used together ISO 2011 All rights reserved Vii WORKING DRAFT ISO WD 15830 3 Road vehicles Design and performance specifications for the WorldSID 50th percentile male side impact dummy Part 3 Electronic subsystems 1 Scope This part of ISO 15830 specifies requirements for electronic components of the WorldSID 50 percentile side impact dummy a standardized anthropomorphic dummy for side impact testing of road vehicles is applicable to impact tests involving passenger vehicles of categories and goods vehicles of categories N impacts to the side of the vehicle structure impact tests involving the use of an anthropometric dummy as a human surrogate for the purpose of evaluating compliance with vehicle safety standards 2 Normative references The following referenced documents are indispensable for the application of this document For dated references only the edition cited applies For undated references the latest edition of the referenced document including any amendments applies ISO 6487 Road vehicles Measurement techniques in impact tests Instrumentation ISO 15830 1 Design and performance specifications fo
51. s of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 10 oad cell model W50 71060 see ISO 15830 2 Annex C is a product supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results 11 Potentiometer model W50 61027 see ISO 15830 2 Annex C is a product supplied by Humanetics formerly Robert A Denton Inc Rochester Hills Michigan USA This information is given for the convenience of users of this International Standard and does not constitute an endorsement by ISO of the product named Alternative products may be used if they can be shown to lead to the same results ISO 2011 All rights reserved 5 ISO WD 15830 3 4 1 3 11 Lumbar load cell measured lumbar forces and moments shall be measured using Humanetics formally Denton load cell model 50 7112012 Lumbar load cell shall have a mass of 473 g 35 g not including cable and mating connector 4 1 3 12 Pubic load cell measured pubic forces and moments shall be measured using Humanetics formally Denton load cell model 50 7105113 Pubic load cell shall
52. s to each other as well as the lumbar spine The location of the load cell is similar to the human sacrum The iliac wings are bolted to the sides of the load cell The structure of the load cell has a rear mounting ISO 2011 All rights reserved 19 ISO WD 15830 3 surface that has provisions to mount the pelvis accelerometers and tilt sensors The lumbar spine load cell mounts internally to the SI load cell The lower surface of the lumbar load cell is bolted to the SI load cell This load cell measures the complex interaction of forces within the sacrum An impact to the left side of the pelvis will transfer forces and moments through the pelvis bone into both the pubic area and the sacrum At the sacrum the forces and moments may transfer into the right side of the pelvis bone and the lumbar spine This load cell along with the lumbar spine load cell will provide data to understand this interaction B 10 Lumbar load cell W50 71120 The lumbar load cell is used to measure three force and three moment channels in the lumbar spine at the point of attachment to the pelvis The lumbar load cell is installed into the sacro lliac load cell The connector exits at the base of the sacro lliac The data recorded from this device provides information about the forces and moments that occur at the lumbar region of the spinal column B 11 Pubic symphysis load cell W50 71051 The pubic symphysis load cell measures one force Fy channel The load
53. stalled the DTS WorldSID G5 DAS shall be mounted in accordance with the drawings given in ISO 15830 2 The size location and mounting of the DAS shall not interfere with dummy motions DAS electronic specifications shall comply with SAE J211 or ISO 6487 4 2 3 DAS mass and mass distribution combined mass of in dummy DAS components or DAS mass replacements excluding sensors and sensor cables shall be 2 20 kg 0 5 kg DAS mass shall be distributed as given in Table 2 Table 2 DAS mass distribution Body segment DAS mass g Attached to and inside spine box 1560 350 Left femur 287 60 Right femur 287 60 Thorax cabling 75 30 2 does not include the mass of the DAS for the full arm which if used would be placed in the dummy external suit pocket Neither a mass replacement nor a structural replacement is required for this special permissible DAS unit 5 Methods 5 1 Calculation of IR TRACC distances from the IR TRACC voltage outputs If the permissible IR TRACC is installed deflections based on IR TRACC voltage measurements shall be calculated as follows 1 Record the voltage signal from the IR TRACC Do not remove the zero offset um E E V is the equivalent linear output input voltage V 2 Calculate where 21 The WorldSID G5 DAS is a product supplied by Diversified Technical Systems Inc DTS Seal Beach California USA This information is given f
54. ure C 1 C 3 Rotational accelerometer connector pin codes Rotational accelerometer pin assignment is shown in Figure B 6 22 ISO 2011 All rights reserved ISO WD 15830 3 sel SAGAS soy D SMM TONE E nuu 3 man 8 t ma weo CT t NSIS romaa i noma 3 z anoss qus mw 7 wwast MoOlvIEJX3 i aim 4111 annus mmus 1 F E PTI z 10 da L E HAI 31892 MDLIEDd 3787 Lr zt Aog 40 8 000 091 048 ug MBA Leer 1 wr oups 100 5 88 8 Lgzi _ ee __ H ee ggg HL 48 89112 058 aig 0 95 SEL Hasa 59 BObX3MMDCI JZE INULA 2 0557 338 2 OS Tash OUSO TID F HOA 335 OF Lm 1121 4051 OMS Woes Seo GETI di SALON
55. ver the load cell is loaded over full capacity The load cells are removed from the WorldSID for calibration Each load cell has a unique calibration fixture to mount the load cell in the correct orientation for calibration B 7 Load cell connector pin codes Humanetics formally Denton load cell connector pin usage is shown in Figures B 2 to B 8 CHANNEL COLOR FUNCTION AN 20 WHITE EXCITATION __ FY 5 BLACKSTRIPE SIGNAL 10 EXCITATION MX 26 YvELLOW SIGNAL 12 1 Figure B 2 Connector wiring 31 pin 6 channels PIN 12 CHANNEL PIN FUNCTION FX 1 __ __ _____ FX 12 RED FX 2 ORANGE 2 FX 13 YELLOW SIGNAL 2 FX 3 __ CHANNEL IDENTIFICATION FY 4 BLACK FY 15 WHE o FY 5 JBLACKSTRIPE _ SIGNAL FY 6 __ __ CHANNEL IDENTIFICATION FZ 6 GREN gt 17 BLUE SIGNAL Fz 18 GRAY SIGNAL O FZ 8 CLEAR CHANNEL IDENTIFICATION SHIELD 19 SHIELD GROUND SHIELD 9 SHIELD GROUND 20 AB5 m 01 21 Figure Connector wiring 21 pin 3 channels shou
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