Inductive proximity sensors OsiSense XS. Catalogue

Transcription

1 Inductiv proximity snsors OsiSns XS Catalogu

2 Contnts Inductiv proximity snsors OsiSns XS Slction guid pag b Gnral pag 0 b Flush mountability using tach mod: Simplicity through innovation..... pag 0 OsiSns XS, gnral purpos b Cylindrical typ v Standard rang, flush mountabl pag v Incrasd rang, flush mountabl pag v Incrasd rang, non flush mountabl pag 0 b Block typ v Standard rang, flush mountabl pag v Standard rang, non flush mountabl pag v Incrasd rang, flush or non flush mountabl pag v Incrasd rang, flush or non flush mountabl using tach mod..... pag b Multivoltag snsors with short-circuit protction pag b Snsors with complmntary outputs v Solid-stat PNP or NPN, NO + NC outputs pag v Solid-stat PNP + NPN, NO or NC programmabl outputs pag b Plastic cas snsors pag 0 (for chmical procssing, marin applications) b Basic snsors, flush and non flush mountabl pags and, and b Quasi flush mountabl snsors, incrasd rang pag b Miniatur snsors pag 0 OsiSns XS Application b Adjustabl rang snsors pag b Snsors for rotation monitoring pag b Snsors with analogu output pag b Snsors for food/bvrag and pharmacutical applications v Cylindrical, stainlss stl pags and v Cylindrical, plastic pags 0 and b Fixd snsing distanc dtction for frrous and non frrous matrials pags and b Slctiv dtction of frrous and non frrous matrials pag b Snsors for assmbly, packaging, convying or light handling applications v x x 0 mm format pag 00 v Cubic 0 form, multi-position pag 0 v 0 x 0 x 0 mm format pag 0 b Snsors for wlding machin applications pags 0 and 0 0

3 OsiSns XS b Accssoris pag b Dtction curvs pag b Substitution tabl pag Tchnical information b Protctiv tratmnt of quipmnt according to climatic nvironmnt pag b Product standards and crtifications pag b Dgrs of protction providd by nclosurs pag b Product rfrnc indx pag 0

4 Slction guid Inductiv proximity snsors OsiSns XS Gnral purpos Cylindrical typ Standard rang Flush mountabl Snsing distanc Sn (mm). 0 Diamtr Ø. plain and M M M M0 Short cas Supply -wir c (PNP/NPN) Pag -wir c Pag Long cas Supply -wir c (PNP/NPN) Pag -wir c Pag -wir z Pag 0 Function NO p p p p NC p p p p Connction Pr-cabld (L = m) () p p p p M connctor, -pin (-wir c) p M connctor p p p p /"-0UNF connctor p p p Rmot connctor Rmot connctors availabl: M, M, M, scrw trminal, /", DIN: plas consult our Customr Car Cntr Dgr of protction IP and IP, IP for pr-cabld vrsion, IP K for diamtrs to 0 Spcial - 0 C, + 0 C Add th suffix TF to th nd of th rfrnc () tmpraturs - C, + C Add th suffix TT to th nd of th rfrnc () Typ rfrnc XS0 XS0 XS XS XS0 Pags to () Also availabl in lngths of and 0 m, dpnding on modl () Product availability dpnding on modl: plas consult our Customr Car Cntr 0

5 Incrasd rang Flush mountabl Non flush mountabl. Ø. plain and M M M M0 M M M0 Pags and Pag Pag Pag 0 Pag Pag Pag p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p Rmot connctors availabl: M, M, M, scrw trminal, /", DIN: plas consult our Customr Car Cntr IP and IP, IP for pr-cabld vrsion, IP K for diamtrs to 0 IP and IP, IP for pr-cabld vrsion, IP K for diamtrs to 0 Add th suffix TF to th nd of th rfrnc () Add th suffix TT to th nd of th rfrnc () XS0 XS0 XS, XS XS, XS XS0, XS0 XS XS XS0 XS0 XS0 to 0 to () Product availability dpnding on modl: plas consult our Customr Car Cntr 0

6 Slction guid (continud) Inductiv proximity snsors OsiSns XS Gnral purpos Block typ Standard rang Flush mountabl Snsing distanc Sn (mm). 0 Dimnsions (W x H x D) x x x x x x Supply -wir c (PNP/NPN) Pag Pag Pag -wir c Pag Pag Pag a z Function NO p p p NC p p p NO + NC NO/NC Connction Pr-cabld (L = m) () p p p M connctor, -pin (-wir c) p M connctor /"-0UNF connctor Scrw trminals Rmot connctor M p p M p Othr rmot connctors availabl /"-0UNF M, scrw trminal, /", DIN: plas consult our Customr Car Cntr Dgr of protction IP IP, doubl insulation i or IP, doubl insulation i, dpnding on modl Spcial tmpraturs - 0 C, + 0 C Add th suffix TF to th nd of th rfrnc () - C, + C Add th suffix TT to th nd of th rfrnc () Typ rfrnc XSJ XSF XSE Pags () Also availabl in lngths of and 0 m, dpnding on modl () Product availability dpnding on modl: plas consult our Customr Car Cntr 0

7 Standard rang Incrasd rang Flush mountabl Non flush mountabl Flush or non flush mountabl Flush or non flush mountabl using tach mod x 0 x 0 x 0 x 0 x 0 x x x 0 x 0 x 0 x 0 x Pag Pag Pag Pag Pag Pag Pag p Pag Pag p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p M, scrw trminal, /", DIN: plas consult our Customr Car Cntr IP, doubl insulation i or IP, doubl insulation i, dpnding on modl Add th suffix TF to th nd of th rfrnc () IP and IP IP, doubl insulation i or IP, doubl insulation i, dpnding on modl Add th suffix TT to th nd of th rfrnc () XSC XSD XSC0, XSC0 XSE XSC XSD () Product availability dpnding on modl: plas consult our Customr Car Cntr 0

8 Slction guid (continud) Inductiv proximity snsors OsiSns XS Gnral purpos Snsor typ: flush and non flush mountabl Multivoltag snsors Snsors with complmntary outputs With short-circuit protction Solid-stat PNP or NPN NO + NC outputs Solid-stat PNP + NPN, NO or NC programmabl outputs Snsing distanc Sn (mm) Flush mountabl Non flush mountabl Diamtr Thradd: M, M, M0 Plain: Ø. Thradd: M, M, M, M0 Cas matrial Nickl platd brass Nickl platd brass or stainlss stl or plastic Supply c p p a z p Thradd: M, M, M0 Nickl platd brass or plastic Function NO p NC p NO + NC p NO/NC p programmabl Connction Pr-cabld (L = m) () p p p M connctor, -pin (-wir c) M connctor p p /"-0UNF connctor p Rmot connctor Rmot connctors availabl: M, M, M, scrw trminal, /", DIN: plas consult our Customr Car Cntr Dgr of protction IP or IP dpnding on modl Spcial tmpraturs Typ rfrnc - 0 C, + 0 C Add th suffix TF to th nd of th rfrnc () - C, + C Add th suffix TT to th nd of th rfrnc () XSM XSM XSppppC0 XSppppC0 XSMppKP0 XSMppKP0 XSPppKP0 Pags () Also availabl in lngths of and 0 m, dpnding on modl. () Product availability dpnding on modl: plas consult our Customr Car Cntr. () Packd and sold in lots of 0. 0

9 Plastic cas snsors Basic snsors Almost flush mountabl snsors For chmical procssing, marin For rptitiv machins applications Miniatur snsors For robotic, transfr machin, assmbly lin applications Thradd: M, M, M, M0 Plain: Ø. Thradd: M, M, M, M0 Plain: Ø. Thradd: M, M, M, M0 Plain: Ø Thradd: M Plastic Nickl platd brass or plastic Nickl platd brass Nickl platd brass or stainlss stl p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p Rmot connctors availabl: M, M, M, scrw trminal, /", DIN: plas consult our Customr Car Cntr IP or IP dpnding on modl IP IP or IP IP Add th suffix TF to th nd of th rfrnc () Add th suffix TT to th nd of th rfrnc () XSP XSppBLp XSppALp XSppBLp XSppBppppTQ () XSNpp XSL XSL XSN 0 and and 0 0

10 Slction guid (continud) Inductiv proximity snsors OsiSns XS Applications Applications Snsor typ: flush and non flush mountabl Convying Adjustabl rang snsors Dtction of undrspd, shaft ovrload Snsors for rotation monitoring Position, displacmnt and dformation control/monitoring Snsors with analogu output V or... 0 ma Dvlopd in accordanc with th nds xprssd by our customrs, ths snsors provid a complt solution for spcific application functions: rotation monitoring, slctiv dtction, analogu control, tc. 0 Snsing dist. Sn (mm) Flush mountabl... () 0 0 () 0. 0 () 0 () Non flush mountabl... () 0 0 () 0. 0 () 0 () Form Cylindrical M x M x M0 x Block (W x H x D) dimnsions in mm M0 x Thradd: M, M, M0 x x 0 x 0 x x x x x 0 x 0 x 0 x 0 x Cas matrial Nickl platd brass Mtal PBT Mtal or plastic PBT Supply c p p p p p a z p p Function NO p NC p p p NO + NC NO/NC Connction Pr-cabld (L = m) () p p p M connctor, -pin (c -wir) M connctor p /"-0UNF connctor Rmot connctor p p p Scrw trminals Dgr of protction Spcial tmpraturs Typ rfrnc IP, doubl insulation i IP - 0 C, + 0 C Add th suffix TF to th nd of th rfrnc () - C, + C Add th suffix TT to th nd of th rfrnc () XSB XSB XS0B IP, doubl insulation i IP XSAV XSpR XSMpppAB XSPppAB IP or IP (pr-cabld vrsion) XSppppA Pags and () Dpnding on modl. () Also availabl in lngths of and 0 m, dpnding on modl. () Product availability dpnding on modl: plas consult our Customr Car Cntr

11 Machin with stainlss stl housing Snsors for food/bvrag and pharmacutical applications Cylindrical, stainlss stl Cylindrical, plastic Assmbly machins, convyor systms, matrial handling Factor (F/Nf) snsors for frrous and non frrous matrials Slctiv dtction snsors for frrous matrials only or non frrous matrials only Snsors for convying and matrial handling applications x 0 x format Cubic 0 form 0 x 0 x 0 format, incrasd rang Robotics Snsors for wlding machin applications, 0 or (), or 0 () 0,,, 0 ()... ()... () 0 0 () Plain: Ø Thradd: M, M, M0 Thradd: M, M, M0 Thradd: M, M0 Thradd: M 0 x 0 x, form C, turrt had Stainlss stl, grad L Thradd: M, M, M0 x 0 x 0 x 0 x 0 0 x 0 x 0 Plastic, PPS Mtal Plastic Mtal Plastic Plastic Plastic Plastic, PPS p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p IP (connctor vrsion) IP (pr-cabld vrsion), doubl insulation i IP K conforming to DIN 000 Add th suffix TF to th nd of th rfrnc () Add th suffix TT to th nd of th rfrnc () XSppSA XS ppaa XS MpppKP IP IP IP IP IP IP, doubl insulation i XSC0 XSMPA XSG XSG XST XST XSD IP XSp M XSLC and 0 and and 0 0

12 Gnral Inductiv proximity snsors OsiSns XS 0 Standards and crtifications Paramtrs rlatd to th nvironmnt Tmpratur C % Tmpratur C Humidity as % Insulation C cycl, % RH 0 0 Rlativ humidity Rcommndations Th snsors dtaild in this catalogu ar dsignd for us in standard industrial applications rlating to prsnc dtction. Ths snsors do not incorporat th rquird rdundant lctrical circuit nabling thir usag in safty applications. For safty applications, plas rfr to our Safty solutions using Prvnta catalogu. Quality control Our inductiv proximity snsors ar subjct to spcial prcautions in ordr to guarant thir rliability in th most arduous industrial nvironmnts. b Qualification v Th product charactristics statd in this catalogu ar subjct to a qualification procdur carrid out in our laboratoris. v In particular, th products ar subjctd to climatic cycl tsts for 000 hours whilst powrd-up to vrify thir ability to maintain thir charactristics ovr tim. b Production v Th lctrical charactristics and snsing distancs at both ambint tmpratur and xtrm tmpraturs ar 00% chckd. v Products ar randomly slctd during th cours of production and subjctd to monitoring tsts rlating to all thir qualifid charactristics. b Customr rturns If, in spit of all ths prcautions, dfctiv products ar rturnd to us, thy ar subjct to systmatic analysis and corrctiv actions ar implmntd to liminat th risks of th fault rcurring. Conformity to standards All Tlmcaniqu Snsors brand inductiv proximity snsors conform to and ar tstd in accordanc with th rcommndations of standard IEC 0--. Mchanical shock rsistanc Th snsors ar tstd in accordanc with standard IEC 00--, 0 gn, duration ms. Vibration rsistanc Th snsors ar tstd in accordanc with standard IEC 00--, amplitud ± mm, f = 0 Hz, gn at Hz. Rsistanc to th nvironmnt b Plas rfr to th charactristics pags for th various snsors. b IP : protction against th ffcts of immrsion. Tst conforming to IEC 0: snsor immrsd for 0 minuts in m of watr. No dtrioration in ithr oprating or insulation charactristics is prmittd. b IP : protction against prolongd immrsion. Snsor immrsd for hours in 0 mtrs of watr at 0 C. No dtrioration in ithr oprating or insulation charactristics is prmittd. Tlmcaniqu Snsors with an IP dgr of protction ar idal for us in th most arduous conditions, such as machin tools, automatic car washrs. b IP K: protction against th ffcts of high prssur claning. Adhrnc to standard DIN 000 which stipulats that th product must withstand a watr jt at a prssur of 0 bar and tmpratur of +0 C for minuts. No dtrioration in ithr oprating or insulation charactristics is prmittd. Rsistanc to lctromagntic intrfrnc b Elctrostatic dischargs a and z vrsions: lvl immunity ( kv). IEC b Radiatd lctromagntic filds (lctromagntic wavs) b Fast transints (motor start/stop intrfrnc) b Impuls voltag c, a and z vrsions: lvl ( V/m) or lvl (0 V/m) immunity. IEC c vrsion: lvl immunity ( kv). a and z vrsions: lvl immunity ( kv) xcpt Ø mm modl (lvl ). IEC c, a and z vrsions: lvl immunity (. kv) xcpt Ø mm and smallr modls (lvl kv). IEC 0-- Rsistanc to chmicals in th nvironmnt b Owing to th vry wid rang of chmicals ncountrd in industry, it is vry difficult to giv gnral guidlins common to all snsors. b To nsur lasting fficint opration, it is ssntial that any chmicals coming into contact with th snsors will not affct thir casing and, in doing so, prvnt thir rliabl opration. b Cylindrical and flat plastic cas snsors offr xcllnt ovrall rsistanc to: v chmical products such as salts, aliphatic and aromatic oils, ptrolum, acids and dilutd bass. For alcohols, ktons and phnols, prliminary tsts should b mad rlating to th natur and concntration of th liquid. v food and bvrag industry products such as animal or vgtabl basd products (vgtabl oils, animal fat, fruit juic, dairy protins, tc.). In all cass, th matrials slctd (s product charactristics) provid satisfactory compatibility in most industrial nvironmnts (for furthr information, plas consult our Customr Information Cntr). Class dvics i Elctrical insulation conforming to standards IEC 0 and NF C 0-00 rlating to mans of protction against lctric shock. 0

13 Gnral (continud) Inductiv proximity snsors OsiSns XS Principl of inductiv dtction Oscillator Output drivr Output stag Oprating principl b An inductiv proximity snsor is solly for th dtction of mtal objcts. It basically compriss an oscillator whos windings constitut th snsing fac. An altrnating magntic fild is gnratd in front of ths windings. Composition of an inductiv proximity snsor b Whn a mtal objct is placd within th magntic fild gnratd by th snsor, th rsulting currnts inducd form an additional load and th oscillations cas. This causs th output drivr to oprat and, dpnding on th snsor typ, a normally opn (NO) or normally closd (NC) output signal is producd. Dtction of a mtal objct Inductiv proximity dtction b Inductiv proximity snsors nabl th dtction, without physical contact, of mtal objcts. b Thir rang of applications is vry xtnsiv and includs: v monitoring th position of machin parts (cams, nd stops, tc.), v counting th prsnc of mtal objcts, tc. Advantags of inductiv dtction b No physical contact with th objct to b dtctd, thus avoiding war and nabling dtction of fragil objcts, frshly paintd objcts, tc. b High oprating rats. Fast rspons. b Excllnt rsistanc to industrial nvironmnts (robust products, fully ncapsulatd in rsin). b Solid-stat tchnology: no moving parts, thrfor srvic lif of snsor not rlatd to numbr of oprating cycls. Flush mountabl using tach mod snsors b Th flush mountabl snsors using tach mod ar suitabl for all mtal nvironmnts (flush mountabl or non flush mountabl) sinc thy nsur a maximum snsing distanc, vn if thr is a mtal bacround. Prcis dtction of th position of th objct can b obtaind using th tach mod. For furthr information, s pag 0. LED indicator Output LED No objct prsnt LED Output stat Sorti NO Sorti NC All Tlmcaniqu Snsors inductiv proximity snsors incorporat an output stat LED indicator. Th flush mountabl snsors using tach mod ar fittd with a grn LED that indicats Powr on and also assists th usr during stting-up (tach mod). Objct prsnt LED Output stat Mounting snsors on a mtal support Sn Flush mountabl in mtal b No sid claranc rquird. b All flush mountabl snsors using tach mod also nabl dtction of an objct against a mtal bacround. For furthr information, s pags 0 and. Mtal Mtal Objct to b dtctd Sn Snsors not suitabl for flush mounting in mtal b Sid claranc rquird. Snsing distanc gratr than that for a standard flush mountabl modl. b Flush mountabl snsors using tach mod liminat th nd for sid claranc. For furthr information, s pags 0 and. Mtal Sn Mtal 0 Objct to b dtctd

14 Gnral (continud) Inductiv proximity snsors OsiSns XS Mounting snsors on a mtal support Non frrous or plastic matrial Mounting distanc btwn snsors Mounting sid by sid u Sn (mm) Tightning torqu for cylindrical typ snsors Mounting fac to fac u 0 Sn h (mm) Mounting using fixing clamp b Standard flush mountabl modls: = 0, h = 0 b Standard non flush mountabl modls v Ø. / / mm: = 0, h = 0 v Ø mm: if h = 0, u ; = 0, h u. v Ø 0 mm: if h = 0, u ; = 0, h u. b Flush mountabl snsors using tach mod: = 0, h = 0 Standard snsors If standard snsors ar mountd too clos to ach othr thy ar likly to lock in th dtction stat du to intrfrnc btwn thir rspctiv oscillating frquncis. To avoid this condition, th minimum mounting distancs statd for th snsors should b adhrd to or, altrnativly, snsors with staggrd oscillating frquncis should b usd. Staggrd frquncy snsors For applications whr th minimum rcommndd mounting distancs for standard snsors cannot b achivd, it is possibl to ovrcom this rstraint by using staggrd frquncy snsors. Plas consult our Customr Car Cntr. In this cas, a staggrd frquncy snsor is mountd adjacnt to or opposit ach standard snsor. Diamtr of snsor (mm) Maximum tightning torqu for th various snsor cas matrials Brass Brass Stainlss stl Plastic Short cas modl XSppB XSppB Long cas modl form A XSppB XSppB XSppB XSAVp Long cas modl form A XSpp XSpp All modls XSPpp Ø. N.m. N.m N.m Ø N.m N.m N.m N.m Ø N.m N.m 0 N.m N.m Ø N.m N.m 0 N.m N.m Ø 0 0 N.m 0 N.m 00 N.m 0 N.m 0

15 Gnral (continud) Inductiv proximity snsors OsiSns XS Snsing distanc Sa = Assurd dtction Standard mtal targt Output ON Output OFF Su max. Sr max. Sn Sr min. Su min. Su max.+ H Sr max. + H Sn + H Sr min. + H Su min. + H Snsing fac H = diffrntial travl Dfinitions In ordr to nsur that customrs can mak rliabl product comparisons and slction, th standard IEC 0-- dfins various snsing distancs, such as: b Nominal snsing distanc (Sn) Th ratd oprating distanc for which th snsor is dsignd. It dos not tak into account any variations (manufacturing tolrancs, tmpratur, voltag). b Effctiv snsing distanc (Sr) Th ffctiv snsing distanc is masurd at th ratd voltag (Un) and th ratd ambint tmpratur (Tn). It must b btwn 0% and 0% of th nominal snsing distanc (Sn): 0. Sn y Sr y. Sn. b Usabl snsing distanc (Su) Th usabl snsing distanc is masurd at th limits of th prmissibl variations in th ambint tmpratur (Ta) and th supply voltag (Ub). It must b btwn 0% and 0% of th ffctiv snsing distanc: 0. Sr y Su y. Sr. b Assurd oprating distanc (Sa). This is th oprating zon of th snsor. Th assurd snsing distanc is btwn 0 and % of th nominal snsing distanc (Sn): 0 y Sa y 0. x 0. x Sn. Standard mtal targt Assurd snsing distanc Sn Standard mtal targt Th standard IEC 0-- dfins th standard mtal targt as a squar mild stl (F 0) plat, mm thick. Th sid dimnsion of th plat is ithr qual to th diamtr of th circl ngravd on th snsing fac of th snsor or tims th nominal snsing distanc (Sn). Trminology Snsing distanc PE = pick-up point, th objct is dtctd PR = drop-out point, th objct is no longr dtctd Snsing rang: Sr Objct dtction zon Prcision adjustmnt zon PE H 0. Sn PR Frontal approach Exampl of stord position Diffrntial travl Th diffrntial travl (H), or hystrsis, is th distanc btwn th oprating point, as th standard mtal targt movs towards th snsor, and th rlas point, as it movs away. This hystrsis is ssntial for th stabl opration of th snsor. Rpat accuracy Th rpat accuracy (R) is th rpatability of th snsing distanc btwn succssiv oprations. Radings ar takn ovr a priod of tim whilst th snsor is subjctd to voltag and tmpratur variations: hours, 0 to 0 C, Un ± %. It is xprssd as a prcntag of th ffctiv snsing distanc Sr. For all OsiSns XS snsors, th rpat accuracy is %. Dtction zon and prcision adjustmnt zon b Flush mountabl snsors using tach mod, du to adjustmnt of snsitivity whilst taching, nabl th position of an objct to b dtctd as it approachs from th front or sid. Th tach mod can b usd whn th objct is locatd in th zon known as th prcision adjustmnt zon. Whn th objct approachs from th front, th dtction zon of th objct rangs from th stord position down to zro. Dtction thrshold curvs Objct dtctd LED Oprating zon b Th oprating zon rlats to th ara in front of th snsing fac in which th dtction of a mtal objct is crtain. Th valus statd in th charactristics rlating to th various typs of snsor ar for stl objcts of a siz qual to th snsing fac of th snsor. For objcts of a diffrnt natur (smallr than th snsing fac of th snsor, othr mtals, tc.), it is ncssary to apply a corrction cofficint. 0

16 Gnral (continud) Inductiv proximity snsors OsiSns XS Corrction cofficints to apply to th assurd oprating distanc, Assurd oprating distanc of a snsor In practic, most objcts to b dtctd ar gnrally mad of stl and ar of a siz qual to, or gratr, than th snsing fac of th snsor. For th calculation of th assurd oprating distanc for diffrnt oprating conditions, on must tak into account th corrction cofficints that influnc it. Th curvs indicatd ar purly rprsntativ of typical curvs. Thy ar only givn as a guid to th approximat usabl snsing distanc of a proximity snsor for a givn application. Influnc of ambint tmpratur Apply a corrction cofficint Kq, dtrmind from th curv shown opposit. 0, 0, Km Calculation xampls Tmpratur C magn. typ typ 0 A UZ AUG Cu Stainlss stl Stl Brass Alu. Coppr Iron Lad Bronz Km 0, 0, 0, 0, 0, 0, 0, 0, 0, Thicknss of 0, 0, 0,, 0, 0, objct (mm) Typical curv for a coppr objct usd with a Ø mm cylindrical snsor Kd 0, 0, 0, 0, 0, 0, 0, 0, 0, Sn Sn Sn Sn Typical curv for a stl objct usd with a cylindrical snsor Matrial of objct to b dtctd Apply a corrction cofficint Km, dtrmind from th diagram shown opposit. Th fixd snsing distanc modls for frrous/non frrous (F/NF) matrials nabl th dtction of diffrnt objcts at a fixd distanc, irrspctiv of th typ of matrial. Spcial cas of a vry thin objct mad of a non frrous matrial. Siz of objct to b dtctd Apply a corrction cofficint Kd, dtrmind from th curv shown opposit. Whn calculating th snsing distanc for th slction of a snsor, mak th assumption that Kd =. Variation of supply voltag In all cass, apply th corrction cofficint Kt = 0.. Corrction of th snsing distanc of a snsor Snsor with nominal snsing distanc Sn = mm. Ambint tmpratur variation 0 to + 0 C. Objct matrial and siz: stl, 0 x 0 x mm thick. Th assurd snsing distanc Sa is dtrmind using th formula: Sa = Sn x Kq x Km x Kd x Kt = x 0. x x 0. x 0. i.. Sa =. mm. Slcting a snsor for a givn application Application charactristics: - objct matrial and siz: iron (Km = 0.), 0 x 0 mm, - tmpratur: 0 to 0 C (Kq = 0.), - objct dtction distanc: mm ±. mm, i.. Sa max. =. mm, - assum Kd =. A snsor must b slctd for which Sn u Sa Kq x Km x Kd x Kt =. 0. x 0. x x 0. i.. Sn u. mm 0

17 Gnral (continud) Inductiv proximity snsors OsiSns XS Spcific aspcts of lctronic snsors XS XS Objct to b dtctd Snsor output t Supply Ir MA Ud V Ra Rr Trminology b Rsidual currnt (Ir) v Th rsidual currnt (Ir) corrsponds to th currnt flowing through th snsor whn in th opn stat. v Charactristic of -wir typ proximity snsors. b Voltag drop (Ud) v Th voltag drop (Ud) corrsponds to th voltag drop at th snsor s trminals whn in th closd stat (valu masurd at nominal currnt rating of snsor). b First-up dlay v Th first-up dlay corrsponds to th tim (t) btwn th connction of th powr supply to th snsor and its fully oprational stat. Supply voltag U on Snsor oprational at stat Snsor at stat 0 b Rspons tim v Rspons tim (Ra): th tim dlay btwn th objct to b dtctd ntring th snsor s oprating zon and th subsqunt chang of output stat. This paramtr limits th spd and siz of th objct. v Rcovry tim (Rr): th tim dlay btwn an objct to b dtctd laving th snsor s oprating zon and th subsqunt chang of output stat. This paramtr limits th intrval btwn succssiv objcts. Snsors for AC circuits (a and z modls) Chck that th voltag limits of th snsor ar compatibl with th nominal voltag of th AC supply usd. Snsors for DC circuits b DC sourc: chck that th voltag limits of th snsor and th accptabl lvl of rippl ar compatibl with th supply usd. b AC sourc (comprising transformr, rctifir, smoothing capacitor): th supply voltag must b within th oprating limits spcifid for th snsor. Whr th voltag is drivd from a singl-phas AC supply, th voltag must b rctifid and smoothd to nsur that: - th pak voltag of th DC supply is lowr than th maximum voltag rating of th snsor. Pak voltag = nominal voltag x - th minimum voltag of th supply is gratr than th minimum voltag rating of th snsor, givn that : DV = (I x t) / C DV = max. rippl: 0 % (V), I = anticipatd load currnt (ma), t = priod of cycl (0 ms full-wav rctifid for a 0 Hz supply frquncy), C = capacitanc (µf). As a gnral rul, us a transformr with a lowr scondary voltag (U) than th rquird DC voltag (U). Exampl: a V to obtain c V, a V to obtain c V. Outputs Output signal (contact logic) b Normally opn (NO) Corrsponds to a snsor whos output changs to th closd stat whn an objct is prsnt in th oprating zon. b Normally closd (NC) Corrsponds to a snsor whos output changs to th opn stat whn an objct is prsnt in th oprating zon. b Complmntary outputs (NO + NC) Corrsponds to a snsor with a normally closd output and a normally opn output. 0

18 Gnral (continud) Inductiv proximity snsors OsiSns XS Outputs (continud) BN BU BN BU BN BU -wir c typ, non polarisd NO or NC output b Spcific aspcts Ths snsors ar wird in sris with th load to b switchd. As a consqunc, thy ar subjct to: v a rsidual currnt in th opn stat (currnt flowing through th snsor in th opn stat), v A voltag drop in th closd stat (voltag drop across th snsor s trminals in th closd stat). b Advantags v Only lads to b wird: ths snsors can b wird in sris in th sam way as mchanical limit switchs, v Thy can b connctd to ithr positiv (PNP) or ngativ (NPN) logic PLC inputs, v No risk of incorrct connctions. b Oprating prcautions v Chck th possibl ffcts of rsidual currnt and voltag drop on th actuator or input connctd, v For snsors that do not hav ovrload and short-circuit protction (AC or AC/DC symbol), it is ssntial to connct a 0. A quick-blow fus in sris with th load. -wir c typ, NO or NC output, PNP or NPN BN PNP BU BK + BN NPN BU BK + b Spcific aspcts v Ths snsors compris wirs for th DC supply and a rd wir for th output signal, v PNP typ: switching th positiv sid to th load, v NPN typ: switching th ngativ sid to th load. b Advantags v Protction against supply rvrs polarity, v Protction against ovrload and short-circuit, v No rsidual currnt, low voltag drop. BN PNP BU BK (NO) WH (NC) + BN NPN BU BK (NO) WH (NC) + -wir c typ, complmntary NO and NC outputs, PNP or NPN b Advantags v Protction against supply rvrs polarity (+/-). v Protction against ovrload and short-circuit. BN/ PNP BU/ WH/ BK/ S I + + BU/ NPN BN/ WH/ BK/ S I + + -wir c typ, multifunction, programmabl NO or NC output, PNP or NPN b Advantags v Protction against supply rvrs polarity (+/-). v Protction against ovrload and short-circuit. Spcific output signals, analogu typ b Ths snsors convrt th approach of a mtal objct towards th snsing fac into an output currnt variation which is proportional to th distanc btwn th objct and th snsing fac. b Two modls availabl: V (0...0 ma) output for -wir connction, - -0 ma output for -wir connction. -wir connction -wir connction 0

19 Gnral (continud) Inductiv proximity snsors OsiSns XS Faturs of th various modls Typs of cas b Cylindrical cas v Fast installation and stting-up. v Short cas and long cas, -wir c and -wir c vrsions availabl. v Pr-cabld (mouldd cabl) and various intgral connctor (M, M, /", M) and rmot connctor (on flying lad) vrsions availabl. v Small siz facilitats mounting in locations with rstrictd accss. v Intrchangability, providd by indxd fixing clamp: whn assmbld, bcoms similar to a block typ snsor.. b Flat cas v Rducd siz (snsor volum dividd by ). v Fast installation by mounting on clip-on brackts. v Prcision dtction with th flush mountabl snsors using tach mod (s pag 0). XSJ XSF XSpE XSpC XSpD Elctrical connction Connction mthods Pr-cabld: factory fittd mouldd cabl, good protction against splashing liquids (IP ). Exampl: machin tool. Connctor: asy installation and maintnanc (IP ). Rmot connctor: asy installation and maintnanc (IP at snsor lvl and IP at rmot connctor lvl). Wiring advic b Lngth of cabl v No limitation up to 00 m or up to a lin capacitanc of < 00 nf (charactristics of snsor rmain unaffctd). v In this cas, it is important to tak into account th voltag drop on th lin. b Sparation of control and powr circuit wiring v Th snsors ar immun to lctrical intrfrnc ncountrd in normal industrial conditions. v Whr xtrm conditions of lctrical nois could occur (larg motors, spot wldrs, tc.), it is advisabl to protct against transints in th normal way: - supprss intrfrnc at sourc, - sparat powr and control wiring from ach othr, - smooth th supply, - limit th lngth of cabl. b Connct th snsor with supply switchd off. 0

20 Gnral (continud) Inductiv proximity snsors OsiSns XS Stting-up prcautions Connction in sris -wir typ snsors b Th following points should b takn into account: v Sris wiring is only possibl using snsors with wid voltag limits. Basd on th assumption that ach snsor has th sam rsidual currnt valu, ach snsor, in th opn stat, will shar th supply voltag, i.. U (supply) U snsor = n snsors U snsor and U supply must rmain within th snsor s voltag limits. v If only on snsor in th circuit is in th opn stat, it will b supplid at a voltag almost qual to th supply voltag. v Whn in th closd stat, a small voltag drop is prsnt across ach snsor. Th rsultant loss of voltag at th load will b th sum of th individual voltag drops and thrfor, th load voltag should b slctd accordingly. -wir typ snsors This connction mthod is not rcommndd. b Corrct opration of th snsors cannot b assurd and, if this mthod is usd, tsts should b mad bfor installation. Th following points should b takn into account: v Snsor carris th load currnt in addition to th no-load currnt consumption valus of th othr snsors connctd in sris. For crtain modls, this connction mthod is not possibl unlss a currnt limiting rsistor is usd. v Whn in th closd stat, a small voltag drop is prsnt across ach snsor. Th load should thrfor b slctd accordingly. v As snsor closs, snsor dos not oprat until a crtain tim (t) has lapsd (corrsponding to th first-up dlay) and likwis for th following snsors in th squnc. v Th us of flywhl diods is rcommndd whn an inductiv load is bing switchd. Snsors and dvics in sris with an xtrnal mchanical contact and -wir typ snsors b Th following points should b takn into account: v Whn th mchanical contact is opn, th snsor is not supplid. v Whn th contact closs, th snsor dos not oprat until a crtain tim (t) has lapsd (corrsponding to th first-up dlay). Connction in paralll -wir typ snsors This connction mthod is not rcommndd. b Should on of th snsors b in th closd stat, th snsor in paralll will b shortd-out and no longr supplid. As th first snsor passs into th opn stat, th scond snsor will bcom nrgisd and will b subjct to its first-up dlay. b This configuration is only prmissibl whr th snsors will b working altrnatly. b This mthod of connction can lad to irrvrsibl damag of th units. -wir typ snsors b No spcific rstrictions. Th us of flywhl diods is rcommndd whn an inductiv load (rlay) is bing switchd. AC supply b -wir typ snsors cannot b connctd dirctly to an AC supply. v This would rsult in immdiat dstruction of th snsor and considrabl dangr to th usr. v An appropriat load (rfr to th instruction sht supplid with th snsor) must always b connctd in sris with th snsor. 0 R C Capacitiv load (C > 0. mf) b On powr-up, it is ncssary to limit (by rsistor) th charging currnt of th capacitiv load C. v Th voltag drop in th snsor can also b takn into account by subtracting it from th supply voltag for th calculation of R. U supply R = I max. (snsor) Load comprising an incandscnt lamp b If th load compriss an incandscnt lamp, th cold stat rsistanc can b 0 tims lowr than th hot stat rsistanc. This can caus vry high currnt lvls on switching. Fit a pr-hat rsistor in paralll with th snsor. R = U P x 0, U = supply voltag and P = lamp powr

21 Gnral (continud) Inductiv proximity snsors OsiSns XS Fast troubl shooting guid Problm Possibl causs Rmdy Th snsor s output will not chang stat whn a mtal objct ntrs th dtction zon On a flush mountabl snsor using tach mod: stting-up or programming rror. b Aftr a RESET, follow th nvironmnt tach mod procdur. Rfr to instruction sht supplid with snsor. Output stag faulty or complt failur of th snsor or th short-circuit protction has trippd. b Chck that th snsor is compatibl with th supply bing usd. b Chck th load currnt charactristics: v if load currnt I u maximum switching capacity, an auxiliary rlay, of th CAD N typ for xampl, should b intrposd btwn th snsor and th load, v if I y maximum switching capacity, chck for wiring faults (short-circuit). b In all cass, a 0. A quick-blow fus should b fittd in sris with th snsor. b Chck that th wiring conforms to th wiring shown on th snsor labl or instruction sht. Wiring rror Supply fault b Chck that th snsor is compatibl with th supply (a or c). b Chck that th supply voltag is within th voltag limits of th snsor. Rmmbr that with a rctifid, smoothd supply, U pak = U nominal x with a rippl voltag y 0 %. Fals or rratic opration, with or without th prsnc of a mtal objct in th dtction zon On flush mountabl snsor using tach mod: stting-up or programming rror. b Aftr a RESET, follow th nvironmnt tach mod procdur. Rfr to instruction sht supplid with snsor. Influnc of bacround or mtal nvironmnt Snsing distanc poorly dfind for th objct to b dtctd b Rfr to th instruction sht supplid with th snsor. For snsors with adjustabl snsitivity, rduc th snsing distanc. b Apply th corrction cofficints. b Ralign th systm or run th tach mod again. Influnc of transint intrfrnc on th supply lins Equipmnt pron to mitting lctromagntic intrfrnc b Ensur that any DC supplis, whn drivd from rctifid AC, ar corrctly smoothd (C > 00 µf). b Sparat AC powr cabls from low-lvl DC cabls ( V low lvl). b Whr vry long distancs ar involvd, us suitabl cabl: scrnd and twistd pairs of th corrct cross-sctional ara. b Position th snsors as far away as possibl from any sourcs of intrfrnc. Rspons tim of th snsor too slow for th particular objct bing dtctd Influnc of high tmpratur b Chck th suitability of th snsor for th position or siz of th objct to b dtctd. b If ncssary, slct a snsor with a highr switching frquncy. b Eliminat sourcs of radiatd hat or protct th snsor casing with a hat shild. b Ralign, having adjustd th tmpratur around th fixing support. No dtction following a priod of srvic Vibration, shock b Ralign th systm. b Rplac th support or protct th snsor. 0

22 Gnral Inductiv proximity snsors OsiSns XS Flush mountability using tach mod: simplicity through innovation Max. snsing distanc Max. snsing distanc Max. snsing distanc GR GR GR Sn Sn Sn Prcision sid approach dtction Oprating principl In proposing flush mountabl snsors using tach mod, Tlmcaniqu Snsors offrs simplicity through innovation. b A singl product nabls flush mounting using tach mod and mts all th rquirmnts for inductiv dtction of mtal objcts. By simply prssing th Tach mod button, th snsor automatically acquirs optimum configuration for all dtction, flush mountability and nvironmnt rquirmnts. b Othr advantags of flush mountabl snsors using tach mod v Incrasd prformanc: - snsing distanc guarantd and optimisd irrspctiv of th mounting mthod, objct, nvironmnt or bacround, - suitabl for all mtal nvironmnts. v Simplifid us providd by: - th flush mountability using tach mod tchnology, associatd with th availability of th flattst and most compact snsors on th markt, nsurs full intgration in th machin and limits th risks of mchanical damag, - mchanical adjustmnts no longr ncssary du to tach mod. v Lowr costs du to: - th limination of adjustmnt tims and complx supports - th limination of flush mountabl and non flush mountabl vrsions, which halvs th numbr of rfrncs, - much asir and much quickr product slction. Prcision position dtction All flush mountabl inductiv proximity snsors using tach mod bnfit from ultra prcis adjustmnt, which is vry quick irrspctiv of th mtal nvironmnt. b Prcision sid approach dtction maks it possibl to accuratly dfin th distanc at which th objct will b dtctd as it passs th snsor. On th flush mountabl snsors using tach mod, th dsird dtction position can b stord in mmory by simply prssing th tach button. b Prcision frontal approach dtction maks it possibl to accuratly dfin th distanc at which th objct will b dtctd as it approachs th snsor. On th flush mountabl snsors using tach mod, th dsird dtction position can b stord in mmory by simply prssing th tach button. Sn Sn Sn Prcision sid frontal dtction Mounting accssoris Tlmcaniqu Snsors offrs a complt, inxpnsiv rang of mounting accssoris (clamps, plats, brackts, tc.) that provid solutions for all installation problms. b Fixing kits for quick installation or rplacmnt of snsors b No adjustmnt rquird. Simpl clipping-in nabls th snsor to b fixd in position and rady for opration. 0 0

23 Prsntation Inductiv proximity snsors OsiSns XS Flush mountability using tach mod: simplicity through innovation Block typ Dimnsions (mm) x x 0 x 0 x 0 x 0 x Snsing distanc (mm) Flush mountd us Non flush mountd us Snsor typ XSEA XSCA XSDA Pag XSEA XSCA XSDA Cylindrical typ Dimnsions (mm) 0 Snsing distanc (mm) Flush mountd us Non flush mountd us Snsor typ XSB XSB XS0B Pag XSB XSB XS0B 0

24 Rfrncs Inductiv proximity snsors OsiSns XS, gnral purpos Cylindrical, standard rang, flush mountabl Thr-wir DC, solid-stat output Snsors, -wir c - V, short cas modl Snsing distanc (Sn) mm Function Output Connction Rfrnc Wight Ø., plain 00. NO PNP Pr-cabld (L = m) () XS0BPAL 0.0 M connctor XS0BPAM 0.0 M connctor XS0BPAM 0.0 NPN Pr-cabld (L = m) () XS0BNAL 0.0 M connctor XS0BNAM 0.0 NC PNP Pr-cabld (L = m) () XS0BPBL 0.0 XS0BppL M connctor XS0BPBM 0.0 NPN Pr-cabld (L = m) () XS0BNBL 0.0 M connctor XS0BNBM XS0BppL XSBppM Ø, thradd M x. NO PNP Pr-cabld (L = m) () XS0BPAL 0.0 M connctor XS0BPAM 0.0 M connctor XS0BPAM 0.0 NPN Pr-cabld (L = m) () XS0BNAL 0.0 M connctor XS0BNAM 0.0 M connctor XS0BNAM 0.0 NC PNP Pr-cabld (L = m) () XS0BPBL 0.0 M connctor XS0BPBM 0.0 M connctor XS0BPBM 0.0 NPN Pr-cabld (L = m) () XS0BNBL 0.0 M connctor XS0BNBM 0.0 M connctor XS0BNBM 0.0 Ø, thradd M x NO PNP Pr-cabld (L = m) () XSBPAL 0.0 M connctor XSBPAM 0.0 NPN Pr-cabld (L = m) () XSBNAL 0.0 M connctor XSBNAM 0.0 NC PNP Pr-cabld (L = m) () XSBPBL 0.0 M connctor XSBPBM 0.0 NPN Pr-cabld (L = m) () XSBNBL 0.0 M connctor XSBNBM 0.0 Ø, thradd M x XSBppM XSBpppL NO PNP Pr-cabld (L = m) () XSBPAL 0.0 M connctor XSBPAM 0.00 NPN Pr-cabld (L = m) () XSBNAL 0.0 M connctor XSBNAM 0.00 NC PNP Pr-cabld (L = m) () XSBPBL 0.0 M connctor XSBPBM 0.00 NPN Pr-cabld (L = m) () XSBNBL 0.0 M connctor XSBNBM 0.00 Ø 0, thradd M0 x. DF 0 NO PNP Pr-cabld (L = m) () XS0BPAL 0.0 M connctor XS0BPAM 0. NPN Pr-cabld (L = m) () XS0BNAL 0.0 M connctor XS0BNAM 0. NC PNP Pr-cabld (L = m) () XS0BPBL 0.0 M connctor XS0BPBM 0. NPN Pr-cabld (L = m) () XS0BNBL 0.0 M connctor XS0BNBM 0. XS0BppL Accssoris () Dscription For us with snsors Rfrnc Wight 0 XSZBpp Fixing clamps Ø. (plain) XSZB 0.00 Ø XSZB Ø XSZB 0.00 Ø XSZB 0.00 Ø 0 XSZB () For a m long cabl rplac L by L; for a 0 m long cabl rplac L by L0. Exampl: XS0BPAL bcoms XS0BPAL with a m long cabl. () For furthr information, s pag.

25 Rfrncs (continud) Inductiv proximity snsors OsiSns XS, gnral purpos Cylindrical, standard rang, flush mountabl Thr-wir DC, solid-stat output XS0BLppL XSppBLppL XSppBLppM XS0BLppL Snsors, -wir c - V, long cas modl Snsing distanc (Sn) mm Ø., plain Function Output Connction Rfrnc Wight. NO PNP Pr-cabld (L = m) () XS0BLPAL 0.0 NPN Pr-cabld (L = m) () XS0BLNAL 0.0 Ø, thradd M x. NO PNP Pr-cabld (L = m) () XS0BLPAL 0.0 M connctor XS0BLPAM 0.0 NPN Pr-cabld (L = m) () XS0BLNAL 0.0 M connctor XS0BLNAM 0.0 NC PNP Pr-cabld (L = m) () XS0BLPBL 0.0 M connctor XS0BLPBM 0.0 NPN Pr-cabld (L = m) () XS0BLNBL 0.0 M connctor XS0BLNBM 0.0 Ø, thradd M x NO PNP Pr-cabld (L = m) () XSBLPAL 0.0 M connctor XSBLPAM 0.0 NPN Pr-cabld (L = m) () XSBLNAL 0.0 M connctor XSBLNAM 0.0 NC PNP Pr-cabld (L = m) () XSBLPBL 0.0 M connctor XSBLPBM 0.0 NPN Pr-cabld (L = m) () XSBLNBL 0.0 M connctor XSBLNBM 0.0 Ø, thradd M x NO PNP Pr-cabld (L = m) () XSBLPAL 0.0 M connctor XSBLPAM 0.00 NPN Pr-cabld (L = m) () XSBLNAL 0.0 M connctor XSBLNAM 0.00 NC PNP Pr-cabld (L = m) () XSBLPBL 0.0 M connctor XSBLPBM 0.00 NPN Pr-cabld (L = m) () XSBLNBL 0.0 M connctor XSBLNBM 0.00 Ø 0, thradd M0 x. 0 NO PNP Pr-cabld (L = m) () XS0BLPAL 0.0 M connctor XS0BLPAM 0. NPN Pr-cabld (L = m) () XS0BLNAL 0.0 M connctor XS0BLNAM 0. NC PNP Pr-cabld (L = m) () XS0BLPBL 0.0 M connctor XS0BLPBM 0. NPN Pr-cabld (L = m) () XS0BLNBL 0.0 M connctor XS0BLNBM 0. Accssoris () Dscription For us with snsors Rfrnc Wight Fixing clamps Ø. (plain) XSZB 0.00 Ø XSZB Ø XSZB 0.00 Ø XSZB 0.00 Ø 0 XSZB () For a m long cabl rplac L by L; for a 0 m long cabl rplac L by L0. Exampl: XS0BLPAL bcoms XS0BLPAL with a m long cabl. () For furthr information, s pag. 0

26 Charactristics Inductiv proximity snsors OsiSns XS, gnral purpos Cylindrical, standard rang, flush mountabl Thr-wir DC, solid-stat output Charactristics Snsor typ Product crtifications XSppBppM, XSppBppM XSppBLppM, XSppBLppM UL, CSA, XSppBppL XSppBLppL Connction Connctor M on Ø. and Ø, M on Ø, Ø, Ø and Ø 0 Pr-cabld Lngth: m Oprating zon Ø. and Ø mm 0. Ø mm 0. Ø mm 0 Ø 0 mm 0 Diffrntial travl %... of ffctiv snsing distanc (Sr) Dgr of protction Conforming to IEC 0 IP and IP IP and IP, doubl insulation i (xcpt Ø. and Ø : IP ) Conforming to DIN 000 IP K for Ø to Ø 0 Storag tmpratur C Oprating tmpratur C Matrials Cas Nickl platd brass (xcpt XS0 and XS0BL: stainlss stl, grad 0) Snsing fac PPS Cabl PvR x 0. mm xcpt XS0 and XS0: x 0. mm Vibration rsistanc Conforming to IEC 00-- gn, amplitud ± mm (f = 0 to 0 Hz) Shock rsistanc Conforming to IEC gn, duration ms Output stat indication Yllow LED: viwing ports at 0 Yllow LED: annular Ratd supply voltag V c for XSppBL, c for XSppB with protction against rvrs polarity Voltag limits (including rippl) V c 0 for XSppBL, c 0 for XSppB Switching capacity ma 00 with ovrload and short-circuit protction Voltag drop, closd stat V Currnt consumption, no-load ma 0 Maximum switching XS0, XS0, XS Hz 000 frquncy XS Hz 000 XS0 Hz 000 Dlays First-up ms 0 Rspons ms 0.: XS0, XS0 and XS 0.: XS 0.: XS0 Rcovry ms 0.: XS0, XS0 and XS 0.: XS 0.: XS0 0

27 Schms, stting-up, dimnsions Inductiv proximity snsors OsiSns XS, gnral purpos Cylindrical, standard rang, flush mountabl Thr-wir DC, solid-stat output Wiring schms Connctor Pr-cabld PNP NPN M M Stting-up BU: Blu BN: Brown BK: Black BN/ PNP BU/ For M connctor, NO and NC outputs on trminal Minimum mounting distancs (mm) + BK/ (NO) BK/ (NC) BN/ NPN BU/ + BK/ (NO) BK/ (NC) Dimnsions Flush mountabl Sid by sid Fac to fac Facing a mtal objct snsors Ø. u u u. Ø u u u. Ø u u u Ø u 0 u 0 u Ø 0 u 0 u 0 u 0 () Snsors Pr-cabld (mm) M connctor (mm) M connctor (mm) Short cas modl a b a b a b Ø. XS0B b Ø XS0B a Ø XSB 0 0 Ø XSB 0 () LED Ø 0 XS0B Snsors Pr-cabld (mm) M connctor (mm) Long cas modl a b a b Ø. XS0BL Ø XS0BL 0 Ø XSBL Ø XSBL Ø 0 XS0BL 0

28 Rfrncs Inductiv proximity snsors OsiSns XS, gnral purpos Cylindrical, standard rang, flush mountabl Two-wir DC XS0BSppL XSBSppL XSppBSppM XSZBpp Snsors, -wir c - V, short cas modl Snsing distanc (Sn) mm Ø., plain Function Connction Rfrnc Wight. NO Pr-cabld (L = m) () XS0BSCAL 0.0 trminals & () Rmot M connctor XS0BSCAL0M 0.00 NC Pr-cabld (L = m) () XS0BSCBL 0.0 Ø, thradd M x. NO Pr-cabld (L = m) () XS0BSCAL 0.0 trminals & () Rmot M connctor XS0BSCAL0M 0.00 Rmot M connctor XS0BSCAL0M 0.00 NC Pr-cabld (L = m) () XS0BSCBL 0.0 Rmot M connctor XS0BSCBL0M 0.00 Ø, thradd M x NO Pr-cabld (L = m) () XSBSDAL 0.0 M connctor XSBSDAM 0.0 NO M connctor XSBSCAM 0.0 trminals & () Rmot M connctor XSBSCAL0M 0.00 NC Pr-cabld (L = m) () XSBSDBL 0.0 M connctor XSBSDBM 0.0 Ø, thradd M x NO Pr-cabld (L = m) () XSBSDAL 0.0 M connctor XSBSDAM 0.00 NO M connctor XSBSCAM 0.00 trminals & () Rmot M connctor XSBSCAL0M 0.0 NC Pr-cabld (L = m) () XSBSDBL 0.0 M connctor XSBSDBM 0.00 Ø 0, thradd M0 x. 0 NO Pr-cabld (L = m) () XS0BSDAL 0.0 M connctor XS0BSDAM 0. NO M connctor XS0BSCAM 0. trminals & () Rmot M connctor XS0BSCAL0M 0.0 NC Pr-cabld (L = m) () XS0BSDBL 0.0 M connctor XS0BSDBM 0. Accssoris () Dscription For us with snsors Rfrnc Wight Fixing clamps Ø. (plain) XSZB 0.00 Ø XSZB Ø XSZB 0.00 Ø XSZB 0.00 Ø 0 XSZB () For a m long cabl rplac L by L; for a 0 m long cabl rplac L by L0. Exampl: XS0BSCAL bcoms XS0BSCAL with a m long cabl. () Th NO output is connctd to trminals and of th M connctor. () For furthr information, s pag. 0

29 Rfrncs (continud) Inductiv proximity snsors OsiSns XS, gnral purpos Cylindrical, standard rang, flush mountabl Two-wir DC 0 0 XSppBppL XSppBppM XSppBppL0B () XSppBppL0C XSppBppL0G XSZBpp Snsors, -wir c - V, long cas modl Snsing Function Connction Rfrnc Wight distanc (Sn) mm Ø, thradd M x. NO Pr-cabld (L = m) () XS0BDAL 0.0 Rmot M connctor XS0BDAL0M 0.00 M connctor XS0BDAM 0.0 NO M connctor XS0BCAM 0.0 trminals & () Rmot M connctor XS0BCAL0M 0.00 NC Pr-cabld (L = m) () XS0BDBL 0.0 M connctor XS0BDBM 0.0 Ø, thradd M x NO Pr-cabld (L = m) () XSBDAL 0.0 Rmot /" connctor XSBDAL0U 0.00 M connctor XSBDAM 0.0 NO M connctor XSBCAM 0.0 trminals & () Rmot M connctor XSBCAL0M 0.00 NC Pr-cabld (L = m) () XSBDBL 0.0 M connctor XSBDBM 0.0 Rmot M connctor XSBDBL0M 0.00 Ø, thradd M x NO Pr-cabld (L = m) () XSBDAL 0.0 Low tmpratur vrsion (- 0 C) XSBDALTF () 0.0 Rmot scrw trminal connctor () XSBDAL0B 0.0 Rmot EN 0-0-A XSBDAL0C 0.0 connctor Rmot M connctor XSBDAL0G 0.0 M connctor XSBDAM 0.00 NO M connctor XSBCAM 0.00 trminals & () Rmot M connctor XSBCAL0M 0.0 NC Pr-cabld (L = m) () XSBDBL 0.0 M connctor XSBDBM 0.00 Rmot M connctor XSBDBL0M 0.0 Rmot scrw trminal connctor () XSBDBL0B 0.0 Ø 0, thradd M0 x. 0 NO Pr-cabld (L = m) () XS0BDAL 0.0 Low tmpratur vrsion (- 0 C) XS0BDALTF () 0.0 M connctor XS0BDAM 0. Rmot scrw trminal connctor () XS0BDAL0B 0.0 Rmot EN 0-0-A XS0BDAL0C 0.0 connctor Rmot M connctor XS0BDAL0G 0.0 NO M connctor XS0BCAM 0. trminals & () Rmot M connctor XS0BCAL0M 0.0 NC Pr-cabld (L = m) () XS0BDBL 0.0 M connctor XS0BDBM 0. Rmot scrw trminal connctor () XS0BDBL0B 0.0 Accssoris () Dscription For us with snsors Rfrnc Wight Fixing clamps Ø XSZB Ø XSZB 0.00 Ø XSZB 0.00 Ø 0 XSZB () For a m long cabl rplac L by L; for a 0 m long cabl rplac L by L0. Exampl: XS0BDAL bcoms XS0BDAL with a m long cabl. () Protctiv cabl gland includd with snsor. () Th NO output is connctd to trminals and of th M connctor. () For furthr information, s pag. () For a m long cabl rplac L by L. Exampl: XSBDALTF bcoms XSBDALTF with a m long cabl. For a PUR cabl, rplac th lttr L by P in th rfrnc. Exampl: XSBDALTF bcoms XSBDAPTF. For a m long cabl rplac P by P. Exampl: XSBDAPTF bcoms XSBDAPTF with a m long cabl. 0

30 Charactristics Inductiv proximity snsors OsiSns XS, gnral purpos Cylindrical, standard rang, flush mountabl Two-wir DC Charactristics Snsor typ XSppBppM, XSppBSppM XSppBDpL, XSppBSppL Product crtifications UL, CSA, Connction Connctor M Pr-cabld Lngth: m Rmot connctor Oprating zon Ø. mm 0. Ø mm 0. Ø mm 0. Ø mm 0 Ø 0 mm 0 M (L0M), scrw trminal (L0B), EN 0-0-A (L0C) and M (L0G) rmot connctors, on 0. m flying lad. M (L0M) and /" (L0U) rmot connctors, on 0.0 m flying lad Diffrntial travl %... of ffctiv snsing distanc (Sr) Dgr of protction Conforming to IEC 0 IP and IP IP and IP, doubl insulation i (xcpt Ø. and Ø : IP ) Storag tmpratur C Oprating tmpratur C ; TF products: Matrials Cas Nickl platd brass (xcpt XS0 and XS0B: stainlss stl, grad 0) Snsing fac PPS Cabl PvR x 0. mm Vibration rsistanc Conforming to IEC 00-- gn, amplitud ± mm (f = 0 to Hz) Shock rsistanc Conforming to IEC gn, duration ms Output stat indication Yllow LED: viwing ports at 0 Yllow LED: annular (xcpt XS0 and XS0: x 0. mm ) PUR availabl () Ratd supply voltag V c non polarisd for XSppBp, c non polarisd for XSppBS (xcpt Ø. short and Ø short: polarisd) with protction against rvrs polarity Voltag limits (including rippl) V c 0 for XSppBp, c 0 for XSppBS Switching capacity ma. 00 with ovrload and short-circuit protction Voltag drop, closd stat V y. Rsidual currnt, opn stat ma y 0. Maximum switching XS0, XS0 Hz 000 for XSppBS, 00 for XSppBp frquncy XS Hz 000 XS Hz 00 XS0 Hz 00 Dlays First-up ms y 0 Rspons ms y 0.: XS0, XS0 and XS y 0.: XS y 0.: XS0 Rcovry ms y 0. (xcpt XS0 0.) () For PUR cabl, rplac th lttr L in th rfrnc by P. Exampl: XS0BSCAL bcoms XS0BSCAP with PUR cabl. 0