inductivi

March 25, 2018 | Author: wawin | Category: Rectifier, Series And Parallel Circuits, Switch, Capacitor, Force
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Contents3 - Inductive proximity sensors OsiSense XS Selection guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 3/2 b General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 3/10 b Flush mountability using teach mode: Simplicity through innovation . . . page 3/20 1 OsiSense XS, general purpose b Cylindrical type v Standard range, flush mountable . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 3/22 v Increased range, flush mountable . . . . . . . . . . . . . . . . . . . . . . . . . . . page 3/32 v Increased range, non flush mountable . . . . . . . . . . . . . . . . . . . . . . . . page 3/40 2 b Block type v v v v Standard range, flush mountable . . . . . . . . . . . . . . . . . . . . . . . . . . . . Standard range, non flush mountable . . . . . . . . . . . . . . . . . . . . . . . . Increased range, flush or non flush mountable . . . . . . . . . . . . . . . . . . Increased range, flush or non flush mountable using teach mode . . . page 3/44 page 3/48 page 3/48 page 3/52 3 b Multivoltage sensors with short-circuit protection . . . . . . . . . . . . . . . . . . page 3/54 b Sensors with 2 complementary outputs v Solid-state PNP or NPN, NO + NC outputs . . . . . . . . . . . . . . . . . . . . page 3/56 v Solid-state PNP + NPN, NO or NC programmable outputs. . . . . . . . . page 3/58 4 b Plastic case sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 3/60 (for chemical processing, marine applications) b Basic sensors, flush and non flush mountable . . . . . . . . . . . pages 3/32 and 3/33, 3/62 and 3/64 5 b Quasi flush mountable sensors, increased range . . . . . . . . . . . . . . . . . page 3/68 b Miniature sensors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 3/70 6 OsiSense XS Application b Adjustable range sensors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 3/72 b Sensors for rotation monitoring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 3/75 b Sensors with analogue output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 3/79 7 b Sensors for food/beverage and pharmaceutical applications v Cylindrical, stainless steel . . . . . . . . . . . . . . . . . . . . . . . . . pages 3/86 and 3/88 v Cylindrical, plastic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . pages 3/90 and 3/92 b Fixed sensing distance detection for ferrous and non ferrous materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . pages 3/94 and 3/96 b Selective detection of ferrous and non ferrous materials . . . . . . . . . . . . page 3/98 8 b Sensors for assembly, packaging, conveying or light handling applications v 12 x 26 x 40 format . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 3/100 v Cubic 40 form, multi-position . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 3/104 v 80 x 80 x 40 format . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 3/106 b Sensors for welding machine applications . . . . . . . . . . . . . pages 3/108 and 3/110 9 OsiSense XS b Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .page 3/112 b Detection curves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .page 3/116 b Substitution table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .page 3/118 3/1 10 Selection guide Inductive proximity sensors OsiSense XS General purpose Cylindrical type Standard range Flush mountable 1 2 3 Sensing distance Sn (mm) 1.5 2 5 10 Diameter Ø 6.5 plain and M8 M12 M18 M30 Short case Long case 4 Function Connection 5 6 Supply 3-wire c (PNP/NPN) Page 3/22 2-wire c Page 3/26 Supply 3-wire c (PNP/NPN) Page 3/23 2-wire c Page 3/27 2-wire z – NO p p p p NC p p p p Page 3/30 Pre-cabled (L = 2 m) (1) p p p p M8 connector, 3-pin (3-wire c) p M12 connector p – p – p – p Remote connector Remote connectors available: M8, M12, M18, screw terminal, 7/8", DIN: please consult our Customer Care Centre Degree of protection IP 65 and IP 67, IP 68 for pre-cabled version, IP 69K for diameters 12 to 30 Special temperatures - 40 °C, + 70 °C Add the suffix TF to the end of the reference (2) - 25 °C, + 85 °C Add the suffix TT to the end of the reference (2) Type reference XS5 06 Pages 3/22 to 3/31 XS5 08 XS5 12 XS5 18 XS5 30 (1) Also available in lengths of 5 and 10 m, depending on model (2) Product availability depending on model: please consult our Customer Care Centre 7 8 9 10 3/2 Inductive proximity sensors Selection guide OsiSense XS General purpose Increased range Flush mountable Non flush mountable 1 2 2.5 4 8 15 7 12 22 Ø 6.5 plain and M8 M12 M18 M30 M12 M18 M30 Pages 3/32 and 3/33 – Page 3/36 – Page 3/34 Page 3/40 Page 3/36 3 – – Page 3/38 – Page 3/42 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 4 5 Remote connectors available: M8, M12, M18, screw terminal, 7/8", DIN: please consult our Customer Care Centre IP 65 and IP 67, IP 68 for pre-cabled version, IP 69K for diameters 12 to 30 IP 65 and IP 67, IP 68 for pre-cabled version, IP 69K for diameters 12 to 30 6 Add the suffix TF to the end of the reference (2) Add the suffix TT to the end of the reference (2) XS1 06 XS6 06 XS1 08 XS6 08 XS1 12, XS6 12 XS1 18, XS6 18 XS1 30, XS6 30 3/32 to 3/39 XS6 12 XS6 18 XS6 30 3/40 to 3/43 (2) Product availability depending on model: please consult our Customer Care Centre 7 8 9 10 3/3 5 5 10 Dimensions (W x H x D) 8 x 22 x 8 15 x 32 x 8 26 x 26 x 13 Supply 4 Function 5 Connection 6 3-wire c (PNP/NPN) Page 3/44 Page 3/44 Page 3/46 2-wire c Page 3/44 Page 3/44 Page 3/46 a – – – z – – – NO p p p NC p p p NO + NC – – – NO/NC – – – Pre-cabled (L = 2 m) (1) p p p M8 connector. double insulation i or IP 68. double insulation i. depending on model XS7 F XS7 E 3/46 (1) Also available in lengths of 5 and 10 m. depending on model (2) Product availability depending on model: please consult our Customer Care Centre 8 9 10 3/4 . DIN: please consult our Customer Care Centre Degree of protection IP 67 Special temperatures . 3-pin (3-wire c) – – p M12 connector – – – 1/2"-20UNF connector – – – Screw terminals – p – M8 – p M12 – – – p – – – Remote connector 1/2"-20UNF Other remote connectors available 7 M18.Inductive proximity sensors Selection guide OsiSense XS General purpose Block type Standard range Flush mountable 1 2 3 Sensing distance Sn (mm) 2. screw terminal. + 70 °C Add the suffix TF to the end of the reference (2) .40 °C.25 °C. + 85 °C Add the suffix TT to the end of the reference (2) Type reference XS7 J Pages 3/44 IP 67. 7/8". 7/8". screw terminal. double insulation i or IP 68. depending on model IP 65 and IP 67 IP 67. double insulation i or IP 68. XS8 C40 XS8 E 3/48 3/52 XS8 C XS8 D (2) Product availability depending on model: please consult our Customer Care Centre 8 9 10 3/5 . double insulation i. depending on model 7 Add the suffix TF to the end of the reference (2) Add the suffix TT to the end of the reference (2) XS7 C 3/46 XS7 D XS7 C40. DIN: please consult our Customer Care Centre IP 67. double insulation i.Inductive proximity sensors Selection guide OsiSense XS General purpose Standard range Flush mountable Non flush mountable Increased range Flush or non flush mountable Flush or non flush mountable using teach mode 1 2 3 15 40 15 15 25 60 40 x 40 x 15 80 x 80 x 26 40 x 40 x 117 20 40 26 x 26 x 13 40 x 40 x 15 80 x 80 x 26 Page 3/46 Page 3/46 Page 3/48 Page 3/50 Page 3/46 Page 3/46 – Page 3/48 p – – – – Page 3/48 Page 3/50 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 – 4 – 5 6 – M18. M18. 3-pin (3-wire c) – M12 connector – p – p – p – – 1/2"-20UNF connector Remote connector 7 8 – Remote connectors available: M8... M18.. M18..15 2 . DIN: please consult our Customer Care Centre Degree of protection IP 67 or IP 68 depending on model Special temperatures .. 10 2.5 .. 15 Diameter Threaded: M12. M18. + 85 °C Add the suffix TT to the end of the reference (2) Type reference XS1 M XS2 M XS1ppppC410 XS2ppppC410 XS1 MppKP340 XS2 MppKP340 XS4 PppKP340 Pages 3/54 3/56 3/58 9 (1) Also available in lengths of 5 and 10 m. 15 1. M30 Threaded: M12.5 . + 70 °C Add the suffix TF to the end of the reference (2) . M12.. 7/8". depending on model (2) Product availability depending on model: please consult our Customer Care Centre (3) Packed and sold in lots of 20. M30 Plain: Ø 6. screw terminal.5 Threaded: M8.. M30 Case material Nickel plated brass Nickel plated brass or stainless steel or plastic Nickel plated brass or plastic 1 2 3 Sensing distance Sn (mm) Flush mountable Non flush mountable 4 Supply 5 Function 6 Connection c – p p a – – – z p – – NO p – – NC p – NO + NC – – p NO/NC – – p programmable Pre-cabled (L = 2 m) (1) p p p M8 connector.. NO or NC programmable outputs 2 . M12.Selection guide Inductive proximity sensors OsiSense XS General purpose Sensor type: flush and non flush mountable Multivoltage sensors Sensors with 2 complementary outputs With short-circuit protection Solid-state PNP or NPN NO + NC outputs Solid-state PNP + NPN. 10 3/6 .. 10 4 ..40 °C. 10 4 ..25 °C. M18. 15 1. DIN: please consult our Customer Care Centre IP 67 or IP 68 depending on model IP 67 7 IP 67 or IP 68 IP 67 Add the suffix TF to the end of the reference (2) Add the suffix TT to the end of the reference (2) XS4 P XS1ppBLp XS2ppALp XS2ppBLp XS1ppB3ppppTQ (3) XS1 Npp349 XS1 L XS2 L XS1 N 3/60 3/62 and 3/64 3/32 and 3/33 3/68 3/70 8 9 10 3/7 . M12. transfer machine. M30 Plain: Ø 6... M18. assembly line applications 2 3 – 2. 10 2. 15 2.. M18. screw terminal.5 . M12.... marine applications For repetitive machines Miniature sensors 1 For robotic. M30 Plain: Ø 6. M30 Plain: Ø 4 Threaded: M5 Plastic Nickel plated brass or plastic Nickel plated brass Nickel plated brass or stainless steel 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 – – – – 4 5 6 Remote connectors available: M8. M18.5 Threaded: M8. M12. 20 1 – Threaded: M8..5 . M12..5 .5 . 15 – – 2..5 .Inductive proximity sensors Selection guide OsiSense XS General purpose Plastic case sensors Basic sensors Almost flush mountable sensors For chemical processing.. 7/8".5 Threaded: M8. 3/85 (1) Depending on model. depending on model. analogue control. these sensors provide a complete solution for specific application functions: rotation monitoring. displacement and deformation control/monitoring Adjustable range sensors Sensors for rotation monitoring Sensors with analogue output 0 . (2) Also available in lengths of 5 and 10 m.11 (1) 5. etc. M30 – 26 x 26 x 13 40 x 40 x 15 – 32 x 15 x 8 26 x 26 x 13 40 x 40 x 15 80 x 80 x 26 Nickel plated brass Metal PBT Metal or plastic PBT c p p p p p a – – p – – – p – z – – Block (W x H x D) dimensions in mm Case material Supply 7 8 9 10 Function Connection 5…40 (1) 5…40 (1) NO p – p – p – p – NC – – NO + NC – – – – – NO/NC – – – – – Pre-cabled (L = 2 m) (2) – p – p p M8 connector.Inductive proximity sensors Selection guide OsiSense XS Applications 1 2 3 Applications Sensor type: flush and non flush mountable Conveying Detection of underspeed.. Sn (mm) Flush mountable Non flush mountable 3. 20 mA Developed in accordance with the needs expressed by our customers...2…10 (1) 0.25 °C.. 10 V or 4 ... (3) Product availability depending on model: please consult our Customer Care Centre 3/8 . double insulation i IP 67 IP 67. 4 5 6 Sensing dist.4…60 (1) Form Cylindrical M12 x 54 M18 x 67 M30 x 71 – M30 x 81 – Threaded: M12.18 (1) 10 10 10…15 (1) 10…15 (1) 0. – M18. shaft overload Position. + 70 °C Add the suffix TF to the end of the reference (3) .. double insulation i IP 67 IP 67 or IP 68 (precabled version) Special temperatures . 3-pin (c 3-wire) – – – – M12 connector – – – – – p 1/2"-20UNF connector – p – – – p – Remote connector – – p Screw terminals – – – – – Degree of protection IP 67. + 85 °C Add the suffix TT to the end of the reference (3) Type reference XS6 12B2 XS6 18B2 XS6 30B2 XSA V XS9 p11R XS1 XS9 ppppA MpppAB1 XS4 PppAB1 Pages 3/72 3/75 3/77 3/79 3/83.. selective detection.40 °C. M30 – Threaded: M18 – – – Threaded: M12. increased range Sensors for welding machine applications 2 3 4 – 7. 10 (1) 4…10 (1) Plain: Ø 18 Threaded: M12. M18. 3. grade 316 L Plastic. 10 or 15 (1) – 5.. turret head – 12 x 40 x 26 40 x 40 x 40 80 x 80 x 40 – Stainless steel. conveyor systems. M30 – – 40 x 40 x 117.. 3/110 3/100 3/9 10 . double insulation i IP 67 IP 67 (connector version) IP 68 (pre-cabled version).Inductive proximity sensors Selection guide OsiSense XS Application 1 Machine with stainless steel housing Assembly machines. 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 68 IP 67 IP 68 IP 67 IP 67 IP 67. M30 – Threaded: M12. plastic Selective detection sensors for ferrous materials only or non ferrous materials only Robotics Sensors for conveying and material handling applications 12 x 40 x 26 format Cubic 40 form 80 x 80 x 40 format. M18.22 (1) 5. 6 or 10 (1) 2 – 4 15 20 50 42 2. M18. material handling Sensors for food/beverage and pharmaceutical applications Factor 1 (Fe/Nfe) sensors for ferrous and non ferrous materials Cylindrical.. 5.22 (1) – 7. stainless steel Cylindrical. PPS Metal Plastic Metal Plastic Plastic Plastic Plastic. M30 Threaded: M18.. form C. double insulation i IP 69K conforming to DIN 40050 5 6 7 8 9 Add the suffix TF to the end of the reference (3) Add the suffix TT to the end of the reference (3) XS2 ppSA XS2 ppAA XS1  MpppKP XS7 C40 XS1 M18PA XS7 G XS8 G XS7 T XS8 T XS7 D XSp M XSL C 3/86 and 3/88 3/90 and 3/92 3/94 3/96 3/98 3/104 3/106 3/108. a and z versions: level 3 immunity (2. 50 gn.25 0 2 4 6 8 10 12 . in spite of all these precautions. b Customer returns If. Adherence to standard DIN 40050 which stipulates that the product must withstand a water jet at a pressure of 90 bar and temperature of +80 °C for 3 minutes. No deterioration in either operating or insulation characteristics is permitted. automatic car washers. duration 11 ms. the materials selected (see product characteristics) provide satisfactory compatibility in most industrial environments (for further information. Vibration resistance The sensors are tested in accordance with standard IEC 60068-2-6. such as machine tools. f = 10…55 Hz. aliphatic and aromatic oils. 6 Resistance to electromagnetic interference 7 b Electrostatic discharges b Radiated electromagnetic fields (electromagnetic waves) b Fast transients (motor start/stop interference) b Impulse voltage 8 Resistance to chemicals in the environment b Owing to the very wide range of chemicals encountered in industry. 9 10 a and z versions: level 4 immunity (15 kV). b IP 67: protection against the effects of immersion. acids and diluted bases. IEC 60947-5-2 Insulation Class 2 devices i Electrical insulation conforming to standards IEC 61140 and NF C 20-030 relating to means of protection against electric shock. Test conforming to IEC 60529: sensor immersed for 30 minutes in 1 m of water.25° + 70 °C cycle. No deterioration in either operating or insulation characteristics is permitted. it is very difficult to give general guidelines common to all sensors. etc. it is essential that any chemicals coming into contact with the sensors will not affect their casing and. a and z versions: level 4 immunity (2 kV) except Ø 8 mm model (level 2). please consult our Customer Information Centre).5 kV) except Ø 8 mm and smaller models (level 1 kV). For safety applications.General 2 Inductive proximity sensors OsiSense XS Recommendations 1 3 ˚C 75 70 % 100 50 80 25 60 0 20 . These sensors do not incorporate the required redundant electrical circuit enabling their usage in safety applications. Mechanical shock resistance The sensors are tested in accordance with standard IEC 60068-2-27. b Cylindrical and flat plastic case sensors offer excellent overall resistance to: v chemical products such as salts. IEC 61000-4-3 c version: level 3 immunity (1 kV). v In particular.). preliminary tests should be made relating to the nature and concentration of the liquid. b Production v The electrical characteristics and sensing distances at both ambient temperature and extreme temperatures are 100% checked. prevent their reliable operation. b Qualification v The product characteristics stated in this catalogue are subject to a qualification procedure carried out in our laboratories. Conformity to standards All Schneider Electric brand inductive proximity sensors conform to and are tested in accordance with the recommendations of standard IEC 60947-5-2. please refer to our “Safety solutions using Preventa” catalogue. 95% RH Temperature °C Humidity as % 4 14 16 0 18 Relative humidity 2 Temperature Standards and certifications Parameters related to the environment The sensors detailed in this catalogue are designed for use in standard industrial applications relating to presence detection. Schneider Electric sensors with an IP 68 degree of protection are ideal for use in the most arduous conditions. Sensor immersed for 336 hours in 40 metres of water at 50 °C. animal fat. In all cases. 25 gn at 55 Hz. For alcohols. the products are subjected to climatic cycle tests for 3000 hours whilst powered-up to verify their ability to maintain their characteristics over time. v Products are randomly selected during the course of production and subjected to monitoring tests relating to all their qualified characteristics. b IP 69K: protection against the effects of high pressure cleaning. they are subject to systematic analysis and corrective actions are implemented to eliminate the risks of the fault recurring. a and z versions: level 2 (3 V/m) or level 3 (10 V/m) immunity. amplitude ± 2 mm. v food and beverage industry products such as animal or vegetable based products (vegetable oils. No deterioration in either operating or insulation characteristics is permitted. 3/10 2 . in doing so. fruit juice. dairy proteins. Quality control Our inductive proximity sensors are subject to special precautions in order to guarantee their reliability in the most arduous industrial environments. b IP 68: protection against prolonged immersion. IEC 61000-4-2 c. defective products are returned to us. ketones and phenols. petroleum. 5 Resistance to the environment b Please refer to the characteristics pages for the various sensors. b To ensure lasting efficient operation. IEC 61000-4-4 c. b High operating rates. depending on the sensor type. The flush mountable sensors using teach mode are fitted with a green LED that indicates “Power on” and also assists the user during setting-up (teach mode). b Flush mountable sensors using teach mode eliminate the need for side clearance. Advantages of inductive detection b No physical contact with the object to be detected. etc. even if there is a metal background. It basically comprises an oscillator whose windings constitute the sensing face. freshly painted objects. 6 Output state LED Object present 7 Output state Mounting sensors on a metal support Flush mountable in metal b No side clearance required. LED indicator 3 4 5 Output LED Sortie NO Sortie NC LED No object present All Schneider Electric inductive proximity sensors incorporate an output state LED indicator. For further information. b All flush mountable sensors using teach mode also enable detection of an object against a metal background. Precise detection of the position of the object can be obtained using the teach mode. For further information. Sensing distance greater than that for a standard flush mountable model. end stops. b Excellent resistance to industrial environments (robust products. Fast response. without physical contact. counting the presence of metal objects.). etc. etc. 1 Oscillator 2 Output driver 3 Output stage 2 2 OsiSense XS Principle of inductive detection 1 Inductive proximity sensors 1 3 Composition of an inductive proximity sensor b When a metal object is placed within the magnetic field generated by the sensor. fully encapsulated in resin). 2 Sn 10 Metal 3 Sn Metal 2 Object to be detected 3/11 . For further information. a normally open (NO) or normally closed (NC) output signal is produced. Detection of a metal object Inductive proximity detection b b v v Inductive proximity sensors enable the detection. thus avoiding wear and enabling detection of fragile objects. see pages 3/20 and 3/21. of metal objects. 8 Metal Metal 3 Sn Object to be detected 9 Sensors not suitable for flush mounting in metal b Side clearance required.General 2 Operating principle b An inductive proximity sensor is solely for the detection of metal objects. Flush mountable using teach mode sensors b The flush mountable sensors using teach mode are suitable for all metal environments (flush mountable or non flush mountable) since they ensure a maximum sensing distance. the resulting currents induced form an additional load and the oscillations cease. see page 3/20. therefore service life of sensor not related to number of operating cycles. An alternating magnetic field is generated in front of these windings. This causes the output driver to operate and. b Solid-state technology: no moving parts. Their range of applications is very extensive and includes: monitoring the position of machine parts (cams. see pages 3/20 and 3/21. 5 / 8 / 12 mm: e = 0.m 40 N.6 N.m 9 N. h = 0 Ø 18 mm: if h = 0. h = 0 Standard non flush mountable models Ø 6. it is possible to overcome this restraint by using staggered frequency sensors. e u 8. e = 0.m 5 N.m 15 N. Flush mountable sensors using teach mode: e = 0.m 35 N.m 5 N. Please consult our Customer Care Centre. e u 5. In this case. 4 Tightening torque for cylindrical type sensors 5 Maximum tightening torque for the various sensor case materials Brass Brass Stainless steel Plastic Diameter of sensor (mm) Ø 5 Ø 8 Ø 12 Ø 18 Ø 30 6 7 8 9 10 3/12 Short case model XS5ppB1 1.m Long case model form A XS6ppB1 XS6ppB2 XSA Vp 1.m – 1 N. a staggered frequency sensor is mounted adjacent to or opposite each standard sensor. sensors with staggered oscillating frequencies should be used.m 15 N.6 N.m 100 N. e = 0.m 6 N. alternatively. the minimum mounting distances stated for the sensors should be adhered to or. To avoid this condition.m 5 N. h = 0 Standard sensors If 2 standard sensors are mounted too close to each other they are likely to lock in the “detection state” due to interference between their respective oscillating frequencies. e 3 Mounting using fixing clamp b b v v v b h (mm) 1 Inductive proximity sensors e Mounting side by side e≥ 2 Sn Mounting face to face e ≥ 10 Sn Staggered frequency sensors For applications where the minimum recommended mounting distances for standard sensors cannot be achieved. h u 4. h u 3.m 20 N.m 50 N.m Long case model form A XS1 pp XS2 pp All models 2 N.m 30 N.m 2 N.m 50 N. Ø 30 mm: if h = 0.General 2 OsiSense XS Mounting sensors on a metal support 2 Non ferrous or plastic material e (mm) Mounting distance between sensors Standard flush mountable models: e = 0.m XS4 Ppp 2 . 8 9 10 3/13 . the object is detected PR = drop-out point. b Usable sensing distance (Su) The usable sensing distance is measured at the limits of the permissible variations in the ambient temperature (Ta) and the supply voltage (Ub). etc. enable the position of an object to be detected as it approaches from the front or side.9 Sn ≤ Sr ≤ 1. For objects of a different nature (smaller than the sensing face of the sensor. and the release point. This is the operating zone of the sensor. Assured sensing distance 4 Sn 0. Readings are taken over a period of time whilst the sensor is subjected to voltage and temperature variations: 8 hours. such as: b Nominal sensing distance (Sn) The rated operating distance for which the sensor is designed. voltage). temperature. it is necessary to apply a correction coefficient. the detection zone of the object ranges from the stored position down to zero. Sensing face In order to ensure that customers can make reliable product comparisons and selection. due to adjustment of sensitivity whilst teaching. The assured sensing distance is between 0 and 81% of the nominal sensing distance (Sn): 0 ≤ Sa ≤ 0. the standard IEC 60947-5-2 defines various sensing distances. + H Sr max.1 Sn. It must be between 90% and 110% of the effective sensing distance: 0. Precision adjustment zone Operating zone 2 1 Detection threshold curves 2 “Object detected” LED 1 b The operating zone relates to the area in front of the sensing face in which the detection of a metal object is certain. 7 Detection zone and precision adjustment zone Sensing range: Sr Object detection zone Example of stored position b Flush mountable sensors using teach mode. as it moves away. is the distance between the operating point. It does not take into account any variations (manufacturing tolerances. It is expressed as a percentage of the effective sensing distance Sr. Sa = Assured detection Inductive proximity sensors Su min. Un ± 5%. the object is no longer detected Repeat accuracy The repeat accuracy (R) is the repeatability of the sensing distance between successive operations. The teach mode can be used when the object is located in the zone known as the “precision adjustment zone”. Sr max. b Assured operating distance (Sa). It must be between 90% and 110% of the nominal sensing distance (Sn): 0.+ H Su max.General 2 2 OsiSense XS Sensing distance Definitions Standard metal target Output ON Output OFF Su max. b Effective sensing distance (Sr) The effective sensing distance is measured at the rated voltage (Un) and the rated ambient temperature (Tn).). PR 5 Frontal approach Sensing distance 6 H PE = pick-up point. + H Su min.9 Sr ≤ Su ≤ 1. 1 mm thick.9 x Sn 1 2 3 Standard metal target Standard metal target The standard IEC 60947-5-2 defines the standard metal target as a square mild steel (Fe 360) plate. or hysteresis. When the object approaches from the front. + H Sr min.1 Sr. The side dimension of the plate is either equal to the diameter of the circle engraved on the sensing face of the sensor or 3 times the nominal sensing distance (Sn). The values stated in the characteristics relating to the various types of sensor are for steel objects of a size equal to the sensing face of the sensor.81 Sn Terminology Differential travel PE The differential travel (H). other metals.9 x 0. This hysteresis is essential for the stable operation of the sensor. 10 to 30 °C. Sn + H Sn H = differential travel Sr min. as the standard metal target moves towards the sensor. 1 0.7 0. When calculating the sensing distance for the selection of a sensor.e.8 0.General 1 2 Inductive proximity sensors OsiSense XS Correction coefficients to apply to the assured operating distance Assured operating distance of a sensor In practice. irrespective of the type of material. Calculation examples Correction of the sensing distance of a sensor Sensor with nominal sensing distance Sn = 15 mm. 30 x 30 mm. Km 1 0.5 0.2 0. Sn 7 2 Sn 3 Sn 4 Sn Typical curve for a steel object used with a Ø 18 mm cylindrical sensor Variation of supply voltage In all cases. Ambient temperature variation 0 to + 20 °C. type type A37 UZ33 AU4G Cu 316 304 Stainless steel Steel Brass Alu. most objects to be detected are generally made of steel and are of a size equal to. i.9 x 1 x 0. than the sensing face of the sensor.5 mm. . 8 Selecting a sensor for a given application Application characteristics: . one must take into account the correction coefficients that influence it. The curves indicated are purely representative of typical curves. magn.4 0.98 x 0.object material and size: iron (Km = 0.98 x 1 x 0. Object material and size: steel.1 0.9).2 0.1 Apply a correction coefficient Kd.6 0.4 0.object detection distance: 3 mm ± 1.7 0. 2 Influence of ambient temperature Apply a correction coefficient Kq.temperature: 0 to 20 °C (Kq = 0. or greater.5 1 Thickness of object (mm) Typical curve for a copper object used with a Ø 18 mm cylindrical sensor 6 Size of object to be detected Kd 1 0.5 0.5 0.5 A sensor must be selected for which Sn u Kq x Km x Kd x Kt = 0. determined from the curve shown opposite.assume Kd = 1.8 0.3 0. make the assumption that Kd = 1.9 0.7 mm 2 .9. . 1. They are only given as a guide to the approximate usable sensing distance of a proximity sensor for a given application.e. .5 mm.e.95 x 0. Sn u 5. Sa max.3 0.1 0. = 4.9 0. Sa = 12. The assured sensing distance Sa is determined using the formula: Sa = Sn x Kq x Km x Kd x Kt = 15 x 0. Sa 4.9 3 Temperature °C -25 0 20 50 70 Material of object to be detected Km 1 Apply a correction coefficient Km. For the calculation of the assured operating distance for different operating conditions. determined from the diagram shown opposite.4 1. 30 x 30 x 1 mm thick.3 0. determined from the curve shown opposite. apply the correction coefficient Kt = 0.9 i.6 0. Copper Iron Lead Bronze Special case of a very thin object made of a non ferrous material.5 mm. 0.9 9 10 3/14 i.5 4 5 The fixed sensing distance models for ferrous/non ferrous (Fe/NFe) materials enable the detection of different objects at a fixed distance.98).2 0. a 36 V to obtain c 48 V. v Characteristic of 2-wire type proximity sensors.the peak voltage of the DC supply is lower than the maximum voltage rating of the sensor. Example: a 18 V to obtain c 24 V. use a transformer with a lower secondary voltage (Ue) than the required DC voltage (U). given that : DV = (I x t) / C DV = max. As a general rule. This parameter limits the speed and size of the object. t = period of 1 cycle (10 ms full-wave rectified for a 50 Hz supply frequency). 3 Sensors for AC circuits (a and z models) 4 Check that the voltage limits of the sensor are compatible with the nominal voltage of the AC supply used. Ir XS b Voltage drop (Ud) v The voltage drop (Ud) corresponds to the voltage drop at the sensor’s terminals when in the “closed” state (value measured at nominal current rating of sensor). Sensors for DC circuits b DC source: check that the voltage limits of the sensor and the acceptable level of ripple are compatible with the supply used. C = capacitance (µF). b Normally closed (NC) Corresponds to a sensor whose output changes to the open state when an object is present in the operating zone. v Recovery time (Rr): the time delay between an object to be detected leaving the sensor’s operating zone and the subsequent change of output state. Peak voltage = nominal voltage x 2 . the voltage must be rectified and smoothed to ensure that: . This parameter limits the interval between successive objects. b AC source (comprising transformer. b Complementary outputs (NO + NC) Corresponds to a sensor with a normally closed output and a normally open output. Outputs Output signal (contact logic) b Normally open (NO) Corresponds to a sensor whose output changes to the closed state when an object is present in the operating zone. I = anticipated load current (mA). smoothing capacitor): the supply voltage must be within the operating limits specified for the sensor. ripple: 10% (V). rectifier. Where the voltage is derived from a single-phase AC supply.the minimum voltage of the supply is greater than the minimum voltage rating of the sensor.General 2 2 OsiSense XS Specific aspects of electronic sensors MA Inductive proximity sensors Terminology b Residual current (Ir) v The residual current (Ir) corresponds to the current flowing through the sensor when in the “open” state. 1 Supply voltage U on 2 Sensor operational at state 1 3 Sensor at state 0 1 2 3 t Object to be detected Sensor output Supply Ra 1 Rr 2 b Response time v Response time (Ra): the time delay between the object to be detected entering the sensor’s operating zone and the subsequent change of output state. Ud V XS b First-up delay v The first-up delay corresponds to the time (t) between the connection of the power supply to the sensor and its fully operational state. 5 6 7 8 9 10 3/15 . low voltage drop. BU (NC) WH PNP + BN (NO).4-20 mA output for 2-wire connection. . complementary NO and NC outputs. 3 3-wire c type. WH BK I S BU (NO). multifunction.. BU (NC) + NPN –– BK – BU (NO). analogue type b These sensors convert the approach of a metal object towards the sensing face into an output current variation which is proportional to the distance between the object and the sensing face. v A voltage drop in the closed state (voltage drop across the sensor’s terminals in the “closed” state). it is essential to connect a 0. Protection against overload and short-circuit. NO or NC output. PNP or NPN 7 BN (NO).. b v v v Advantages Protection against supply reverse polarity. v No risk of incorrect connections. BN (NC) + 3-wire connection Specific output signals. v Protection against overload and short-circuit. BN (NC) + + 8 S I – S I – 9 2-wire connection 10 3/16 b Advantages v Protection against supply reverse polarity (+/-).0. 2 . non polarised NO or NC output b Specific aspects These sensors are wired in series with the load to be switched. – 4-wire c type. PNP or NPN b Advantages v Protection against supply reverse polarity (+/-). v They can be connected to either positive (PNP) or negative (NPN) logic PLC inputs. No residual current. they are subject to: v a residual current in the open state (current flowing through the sensor in the “open” state).. b Two models available: . + S + I BN PNP 6 + b v v v BK (NO) – WH (NC) – BU + BN NPN BK (NO) WH (NC) BU 4-wire c type. BU 2 BN BU b Operating precautions v Check the possible effects of residual current and voltage drop on the actuator or input connected. v For sensors that do not have overload and short-circuit protection (AC or AC/DC symbol).General 2 Inductive proximity sensors OsiSense XS + I 1 – Outputs (continued) 2-wire c type. As a consequence. programmable NO or NC output..10 V (0. BN BU BN b Advantages v Only 2 leads to be wired: these sensors can be wired in series in the same way as mechanical limit switches.10 mA) output for 3-wire connection. PNP or NPN 4 + BN PNP BN NPN BK BK – BU 5 – BU Specific aspects These sensors comprise 2 wires for the DC supply and a 3rd wire for the output signal.4 A “quick-blow” fuse in series with the load. PNP type: switching the positive side to the load. v Protection against overload and short-circuit. NPN type: switching the negative side to the load. 2 Connector: easy installation and maintenance (IP 67). Pre-cabled (moulded cable) and various integral connector (M8. v Where extreme conditions of electrical “noise” could occur (large motors. it is important to take into account the voltage drop on the line. b Separation of control and power circuit wiring v The sensors are immune to electrical interference encountered in normal industrial conditions. it is advisable to protect against transients in the normal way: . becomes similar to a block type sensor. spot welders. . Example: machine tool.).smooth the supply.General 2 Inductive proximity sensors 2 OsiSense XS Features of the various models Types of case Cylindrical case Fast installation and setting-up. good protection against splashing liquids (IP 68). Precision detection with the flush mountable sensors using teach mode (see page 3/20). v Small size facilitates mounting in locations with restricted access. b v v v Flat case Reduced size (sensor volume divided by 8). 3 XSp E XS7 J XS7 F 4 XSp C XSp D 5 Electrical connection 1 Connection methods 1 Pre-cabled: factory fitted moulded cable. etc. 3 Remote connector: easy installation and maintenance (IP 68 at sensor level and IP 67 at remote connector level). 7/8". 6 7 8 9 10 3/17 . provided by indexed fixing clamp: when assembled.limit the length of cable. Short case and long case. M18) and remote connector (on flying lead) versions available. v In this case. 2-wire c and 3-wire c versions available. b v v v 1 2 . Wiring advice 2 3 b Length of cable v No limitation up to 200 m or up to a line capacitance of < 100 nF (characteristics of sensor remain unaffected). Fast installation by mounting on clip-on brackets. . M12. v Interchangeability. .suppress interference at source. b Connect the sensor with supply switched off.separate power and control wiring from each other. the sensor does not operate until a certain time (t) has elapsed (corresponding to the first-up delay). Fit a preheat resistor in parallel with the sensor. in the open state.General Setting-up precautions 2 Inductive proximity sensors OsiSense XS Connection in series 2-wire type sensors b The following points should be taken into account: v Series wiring is only possible using sensors with wide voltage limits. will share the supply voltage. b This configuration is only permissible where the sensors will be working alternately. it will be supplied at a voltage almost equal to the supply voltage. n sensors 1 U sensor and U supply must remain within the sensor’s voltage limits. 3 4 Sensors and devices in series with an external mechanical contact 2 and 3-wire type sensors b The following points should be taken into account: v When the mechanical contact is open. this connection method is not possible unless a current limiting resistor is used. For certain models. sensor 2 does not operate until a certain time (t) has elapsed (corresponding to the first-up delay) and likewise for the following sensors in the sequence. Capacitive load (C > 0. The load should therefore be selected accordingly. the cold state resistance can be 10 times lower than the hot state resistance. v If only one sensor in the circuit is in the open state. The following points should be taken into account: v Sensor 1 carries the load current in addition to the no-load current consumption values of the other sensors connected in series. 2 3-wire type sensors This connection method is not recommended. b Should one of the sensors be in the closed state. a small voltage drop is present across each sensor. i. 5 Connection in parallel 2-wire type sensors This connection method is not recommended. v When the contact closes. v This would result in immediate destruction of the sensor and considerable danger to the user. R= 3/18 U2 x 10 . the load voltage should be selected accordingly. tests should be made before installation. v An appropriate load (refer to the instruction sheet supplied with the sensor) must always be connected in series with the sensor.1 mF) 9 R C b On power-up. 7 AC supply 8 b 2-wire type sensors cannot be connected directly to an AC supply. the second sensor will become energised and will be subject to its first-up delay. v When in the closed state. b This method of connection can lead to irreversible damage of the units. The use of “flywheel” diodes is recommended when an inductive load (relay) is being switched. a small voltage drop is present across each sensor. U (supply) U sensor = . As the first sensor passes into the open state. The resultant loss of voltage at the load will be the sum of the individual voltage drops and therefore. U = supply voltage and P = lamp power P 2 . v The voltage drop in the sensor can also be taken into account by subtracting it from the supply voltage for the calculation of R. v As sensor 1 closes. the sensor in parallel will be “shorted-out” and no longer supplied. it is necessary to limit (by resistor) the charging current of the capacitive load C. This can cause very high current levels on switching. each sensor.e. (sensor) Load comprising an incandescent lamp 10 b If the load comprises an incandescent lamp. if this method is used. 6 3-wire type sensors b No specific restrictions. Based on the assumption that each sensor has the same residual current value. b Correct operation of the sensors cannot be assured and. the sensor is not supplied. R= U supply I max. v When in the closed state. v The use of “flywheel” diodes is recommended when an inductive load is being switched. b After a RESET. smoothed supply. Refer to instruction sheet supplied with sensor. Wiring error False or erratic operation. 1 2 3 4 5 6 7 8 9 10 3/19 . Influence of background or metal environment b Refer to the instruction sheet supplied with the sensor. On flush mountable sensor using teach mode: setting-up or programming error. Remember that with a rectified. follow the environment teach mode procedure. b Replace the support or protect the sensor. Response time of the sensor too slow for the particular object being detected b Check the suitability of the sensor for the position or size of the object to be detected.General 2 Inductive proximity sensors 2 OsiSense XS Fast trouble shooting guide Problem The sensor’s output will not change state when a metal object enters the detection zone Possible causes On a flush mountable sensor using teach mode: setting-up or programming error. shock b Realign the system. b Realign. b If necessary. an auxiliary relay. Influence of high temperature b Eliminate sources of radiated heat or protect the sensor casing with a heat shield. Remedy b After a RESET. of the CAD N type for example. are correctly smoothed (C > 400 µF). b Realign the system or run the teach mode again. having adjusted the temperature around the fixing support. select a sensor with a higher switching frequency. with or without the presence of a metal object in the detection zone No detection following a period of service Supply fault b Check that the sensor is compatible with the supply (a or c). b Check that the supply voltage is within the voltage limits of the sensor. For sensors with adjustable sensitivity. should be interposed between the sensor and the load. Refer to instruction sheet supplied with sensor. when derived from rectified AC. b Separate AC power cables from low-level DC cables (24 V low level). Sensing distance poorly defined for the object to be detected b Apply the correction coefficients. follow the environment teach mode procedure.4 A “quick-blow” fuse should be fitted in series with the sensor. b Check the load current characteristics: v if load current I ≥ maximum switching capacity. Vibration. a 0. v if I ≤ maximum switching capacity. Influence of transient interference on the supply lines b Ensure that any DC supplies. reduce the sensing distance. Output stage faulty or complete failure of the sensor or the shortcircuit protection has tripped. use suitable cable: screened and twisted pairs of the correct crosssectional area. check for wiring faults (short-circuit). b Check that the sensor is compatible with the supply being used. U peak = U nominal x 2 with a ripple voltage ≤ 10%. b In all cases. Equipment prone to emitting electromagnetic interference b Position the sensors as far away as possible from any sources of interference. b Check that the wiring conforms to the wiring shown on the sensor label or instruction sheet. b Where very long distances are involved. which is very quick irrespective of the metal environment. . Schneider Electric offers simplicity through innovation. environment or background. the desired detection position can be stored in memory by simply pressing the teach button. which halves the number of references. . inexpensive range of mounting accessories (clamps.mechanical adjustments no longer necessary due to teach mode. associated with the availability of the flattest and most compact sensors on the market. b Fixing kits for quick installation or replacement of sensors 9 b No adjustment required. Sn Sn Precision side frontal detection Mounting accessories 8 Schneider Electric offers a complete. GR 3 v Simplified use provided by: . Max.suitable for all metal environments. Max. ensures full integration in the machine and limits the risks of mechanical damage. By simply pressing the “Teach mode” button. On the flush mountable sensors using teach mode. 7 Sn b Precision side approach detection makes it possible to accurately define the distance at which the object will be detected as it passes the sensor.sensing distance guaranteed and optimised irrespective of the mounting method. Simple clipping-in enables the sensor to be fixed in position and ready for operation.the flush mountability using teach mode technology.Inductive proximity sensors General OsiSense XS Flush mountability using teach mode: simplicity through innovation Operating principle 1 In proposing flush mountable sensors using teach mode. the desired detection position can be stored in memory by simply pressing the teach button. 6 Sn Sn Sn Precision side approach detection b Precision frontal approach detection makes it possible to accurately define the distance at which the object will be detected as it approaches the sensor. sensing distance 2 b Other advantages of flush mountable sensors using teach mode v Increased performance: . sensing distance 5 Precision position detection All flush mountable inductive proximity sensors using teach mode benefit from ultra precise adjustment.much easier and much quicker product selection. plates. .the elimination of flush mountable and non flush mountable versions. sensing distance GR 4 v Lower costs due to: . 10 3/20 2 . etc.) that provide solutions for all installation problems.the elimination of adjustment times and complex supports . flush mountability and environment requirements. the sensor automatically acquires optimum configuration for all detection. object. GR b A single product enables flush mounting using teach mode and meets all the requirements for inductive detection of metal objects. On the flush mountable sensors using teach mode. brackets. Max. 10 Non flush mounted use 0.11 0..60 XS8 D1A1 1 2 XS8 E1A1 XS8 C1A1 3 XS8 D1A1 Cylindrical type Dimensions (mm) Sensing distance (mm) Sensor type Page 12 Flush mounted use 0....6 0....4 Non flush mounted use 0..18 XS6 30B2 4 5 XS6 12B2 XS6 18B2 6 XS6 30B2 7 8 9 10 3/21 ....25 XS8 C1A1 80 x 80 x 26 0...15 0.Inductive proximity sensors Presentation 2 OsiSense XS Flush mountability using teach mode: simplicity through innovation Block type Dimensions (mm) Sensing distance (mm) Sensor type Page 26 x 26 x 13 Flush mounted use 0....3.5 XS6 12B2 3/72 18 0..15 XS8 E1A1 3/52 40 x 40 x 15 0...9 XS6 18B2 30 0.....40 0.. 035 XS5 06B1NAM8 M8 connector XS5 06B1ppL2 Ø 8. standard range.120 0.5 Function Output NO PNP Weight Pre-cabled (L = 2 m) (1) XS5 06B1PAL2 0.205 0.060 0. for a 10 m long cable replace L2 by L10. general purpose Cylindrical.006 0.5 10 PNP NPN DF535158 8 NO NC PNP NPN XS5 30B1ppL2 9 Description 825994 10 Accessories (2) XSZ B1pp 3/22 For use with Reference sensors Fixing clamps Ø 6.035 0.060 0. 3-wire c 12-24 V.025 0.035 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XS5 18B1PAL2 XS5 18B1PAM12 XS5 18B1NAL2 XS5 18B1NAM12 XS5 18B1PBL2 XS5 18B1PBM12 XS5 18B1NBL2 XS5 18B1NBM12 0.5 (plain) XSZ B165 Ø 8 XSZ B108 Ø 12 XSZ B112 Ø 18 XSZ B118 Ø 30 XSZ B130 (1) For a 5 m long cable replace L2 by L5. short case model Sensing distance (Sn) mm Ø 6.025 0.025 0.010 0.025 Pre-cabled (L = 2 m) (1) XS5 06B1NBL2 0. threaded M18 x 1 NO 821938 821936 5 NPN NC 7 XS5 18B1ppM12 PNP PNP NPN XS5 18B1pppL2 Ø 30.035 0.035 0.035 M8 connector XS5 06B1NBM8 0.205 0.020 .025 Pre-cabled (L = 2 m) (1) M8 connector M12 connector Pre-cabled (L = 2 m) (1) M8 connector M12 connector Pre-cabled (L = 2 m) (1) M8 connector M12 connector Pre-cabled (L = 2 m) (1) M8 connector M12 connector XS5 08B1PAL2 XS5 08B1PAM8 XS5 08B1PAM12 XS5 08B1NAL2 XS5 08B1NAM8 XS5 08B1NAM12 XS5 08B1PBL2 XS5 08B1PBM8 XS5 08B1PBM12 XS5 08B1NBL2 XS5 08B1NBM8 XS5 08B1NBM12 0. (2) For further information.060 0. threaded M8 x 1 3 NO 801231 1.145 M8 connector NPN 0.120 0.025 0.025 Pre-cabled (L = 2 m) (1) XS5 06B1NAL2 NC PNP 0.5 4 PNP NPN NC PNP XS5 08B1ppL2 NPN Ø 12. threaded M30 x 1.145 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XS5 30B1PBL2 XS5 30B1PBM12 XS5 30B1NBL2 XS5 30B1NBM12 0. Weight kg 0.025 0.035 M8 connector XS5 06B1PAM8 0.060 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XS5 30B1PAL2 XS5 30B1PAM12 XS5 30B1NAL2 XS5 30B1NAM12 0.120 0.006 0.075 0.025 0.035 0.035 XS5 06B1PBM8 0.120 0.025 0. Example: XS5 08B1PAL2 becomes XS5 08B1PAL5 with a 5 m long cable.205 0. threaded M12 x 1 2 801232 5 Reference kg NPN 2 Connection NO PNP NPN NC NPN XS5 12B1ppM12 6 PNP Ø 18.075 0.005 0. solid-state output Sensors.035 0. flush mountable Three-wire DC.035 0.Inductive proximity sensors References OsiSense XS.145 0. plain 1 801120 1.075 0.145 0.025 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XS5 12B1PAL2 XS5 12B1PAM12 XS5 12B1NAL2 XS5 12B1NAM12 XS5 12B1PBL2 XS5 12B1PBM12 XS5 12B1NBL2 XS5 12B1NBM12 0.025 M12 connector XS5 06B1PAM12 0.025 Pre-cabled (L = 2 m) (1) XS5 06B1PBL2 0.075 0.205 0.035 0. see page 3/112.5. general purpose Cylindrical.035 NPN Pre-cabled (L = 2 m) (1) XS5 06BLNAL2 0. threaded M30 x 1.035 0.035 0.060 0.060 0.035 0.205 0.025 0.120 0.010 0.5.035 0.060 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XS5 30BLPAL2 XS5 30BLPAM12 XS5 30BLNAL2 XS5 30BLNAM12 XS5 30BLPBL2 XS5 30BLPBM12 XS5 30BLNBL2 XS5 30BLNBM12 0.020 8 9 10 3/23 .5 Function Output Connection Reference Weight kg NO PNP Pre-cabled (L = 2 m) (1) XS5 06BLPAL2 0.075 0.035 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XS5 18BLPAL2 XS5 18BLPAM12 XS5 18BLNAL2 XS5 18BLNAM12 XS5 18BLPBL2 XS5 18BLPBM12 XS5 18BLNBL2 XS5 18BLNBM12 0. threaded M18 x 1 5 NO PNP NPN NC PNP NPN Ø 30.035 0.145 0.145 0.120 0.205 0.035 PNP Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XS5 08BLPAL2 XS5 08BLPAM12 XS5 08BLNAL2 XS5 08BLNAM12 XS5 08BLPBL2 XS5 08BLPBM12 XS5 08BLNBL2 XS5 08BLNBM12 0.060 0.120 0. solid-state output Sensors.5 NO 801267 NPN NC PNP NPN XS5 ppBLppL2 Ø 12.075 0. Example: XS5 08BLPAL2 becomes XS5 08BLPAL5 with a 5 m long cable.References Inductive proximity sensors OsiSense XS.5 822115 1 10 NO PNP NPN NC PNP NPN XS5 30BLppL2 5 6 7 Accessories (2) Description For use with Reference sensors Fixing clamps Ø 6.025 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XS5 12BLPAL2 XS5 12BLPAM12 XS5 12BLNAL2 XS5 12BLNAM12 XS5 12BLPBL2 XS5 12BLPBM12 XS5 12BLNBL2 XS5 12BLNBM12 0.025 0.025 0.145 0.006 0. flush mountable Three-wire DC. 3-wire c 12-48 V.075 0.035 0. (2) For further information. see page 3/112. plain 1. long case model 801120 Sensing distance (Sn) mm Ø 6.035 0. threaded M12 x 1 2 NO PNP 801268 NPN NC PNP NPN XS5 ppBLppM12 2 3 4 Ø 18.205 0. standard range.145 Ø 8.006 0. threaded M8 x 1 XS5 06BLppL2 1. for a 10 m long cable replace L2 by L10.075 0.005 0.120 0.205 0.5 (plain) XSZ B165 Ø 8 XSZ B108 Ø 12 XSZ B112 Ø 18 XSZ B118 Ø 30 XSZ B130 (1) For a 5 m long cable replace L2 by L5. Weight kg 0. .35: XS5 18 ≤ 0. double insulation i (except Ø 6. solid-state output Characteristics 1 Sensor type XS5 ppB1ppM8.3: XS5 30 Recovery ms ≤ 0.5 and Ø 8 Differential travel Degree of protection XS5 ppB1ppL2 XS5 ppBLppL2 Delays 7 8 9 10 3/24 XS5 06. e Connector Pre-cabled Operating zone 2 3 5 – Length: 2 m mm 0…1. XS5 08 and XS5 12 ≤ 0..2 Ø 12 mm 0…1.5 and Ø 8: IP 67) IP 69K for Ø 12 to Ø 30 °C . XS5 12 XS5 18 Hz 2000 XS5 30 Hz 1000 First-up ms ≤ 10 Response ms ≤ 0. standard range. XS5 ppBLppM12 Product certifications Connection UL.Characteristics Inductive proximity sensors OsiSense XS. no-load mA ≤ 10 Hz 5000 Maximum switching frequency 6 – Storage temperature Materials 4 M8 on Ø 6. M12 on Ø 8. closed state V ≤2 Current consumption.1: XS5 06. Ø 12. XS5 08 and XS5 12 ≤ 0. general purpose Cylindrical. CSA. flush mountable Three-wire DC.7: XS5 30 .15: XS5 18 ≤ 0. amplitude ± 2 mm (f = 10 to 50 Hz) Shock resistance Conforming to IEC 60068-2-27 50 gn.40…+ 85 Operating temperature °C .15 of effective sensing distance (Sr) IP 65 and IP 67 Conforming to DIN 40050 IP 65 and IP 68. XS5 08. Ø 18 and Ø 30 Ø 6. duration 11 ms Output state indication Yellow LED: 4 viewing ports at 90° PvR 3 x 0.11 mm2 Yellow LED: annular Rated supply voltage V c 12…48 for XS5 ppBL. c 10…36 for XS5 ppB1 Switching capacity mA ≤ 200 with overload and short-circuit protection Voltage drop.25…+ 70 Case Nickel plated brass (except XS5 06 and XS5 08BL: stainless steel. c 12…24 for XS5 ppB1 with protection against reverse polarity Voltage limits (including ripple) V c 10…58 for XS5 ppBL.5 and Ø 8.1: XS5 06. grade 303) Sensing face PPS Cable – Vibration resistance Conforming to IEC 60068-2-6 25 gn.6 Ø 18 mm 0…4 Ø 30 mm 0…8 % Conforming to IEC 60529 1. XS5 ppB1ppM12 XS5 ppBLppM8.34 mm2 except XS5 06 and XS5 08: 3 x 0. standard range.Inductive proximity sensors Schemes.5 XS5 06BL 51 – – – Ø 8 XS5 08BL 51 42 62 40 Ø 12 XS5 12BL 53 42 62 42 Ø 18 XS5 18BL 62 52 74 52 Ø 30 XS5 30BL 62 52 74 52 7 8 9 10 3/25 . 1 + BN/1 NPN BK/4 (NO) BK/2 (NC) BK/4 (NO) BK/2 (NC) – BU/3 For M8 connector.5 Ø 8 Ø 12 Ø 18 Ø 30 Side by side Face to face e≥3 e≥3 e≥4 e ≥ 10 e ≥ 20 Facing a metal object e ≥ 18 e ≥ 18 e ≥ 24 e ≥ 60 e ≥ 120 e ≥ 4. NO and NC outputs on terminal 4 Setting-up 2 Minimum mounting distances (mm) e e e Flush mountable sensors Ø 6. setting-up.5 e≥6 e ≥ 15 e ≥ 30 3 4 Dimensions (1) Sensors Pre-cabled (mm) M8 connector (mm) M12 connector (mm) Short case model a b a b a b b a (1) LED Ø 6. dimensions Wiring schemes Connector M8 M12 4 1 4 3 1 2 3 OsiSense XS. solid-state output Pre-cabled PNP NPN + BN/1 PNP BU: Blue BN: Brown BK: Black – BU/3 See connection on page 9/45. general purpose Cylindrical. flush mountable Three-wire DC.5 XS5 06B1 33 – 42 – 45 – Ø 8 XS5 08B1 33 25 42 26 45 24 Ø 12 XS5 12B1 35 25 – – 50 30 Ø 18 XS5 18B1 39 28 – – 50 28 Ø 30 XS5 30B1 43 32 – – 55 32 Sensors Pre-cabled (mm) M12 connector (mm) Long case model a b a 5 6 b Ø 6.5 e ≥ 4. standard range.006 0.5 (plain) XSZ B165 Ø 8 XSZ B108 Ø 12 XSZ B112 Ø 18 XSZ B118 Ø 30 XSZ B130 (1) For a 5 m long cable replace L2 by L5.5 801232 5 1.120 0.035 0. (3) For further information.120 0.170 0. threaded M30 x 1.035 XS5 08BSCAL2 XS5 08BSCAL01M12 XS5 08BSCAL08M12 XS5 08BSCBL2 XS5 08BSCBL01M12 0. see page 3/112. flush mountable Two-wire DC Sensors.035 0.010 0. 2-wire c 12-24 V. for a 10 m long cable replace L2 by L10.006 0.035 0.5 NO Pre-cabled (L = 2 m) (1) terminals 1 & 4 (2) Remote M12 connector NC Pre-cabled (L = 2 m) (1) Ø 8.020 .035 0.050 2 NO XS5 12BSDAL2 XS5 12BSDAM12 XS5 12BSCAM12 XS5 12BSCAL08M12 XS5 12BSDBL2 XS5 12BSDBM12 0.060 10 NO XS5 30BSDAL2 XS5 30BSDAM12 XS5 30BSCAM12 XS5 30BSCAL08M12 XS5 30BSDBL2 XS5 30BSDBM12 0.References Inductive proximity sensors OsiSense XS.035 5 NO XS5 18BSDAL2 XS5 18BSDAM12 XS5 18BSCAM12 XS5 18BSCAL08M12 XS5 18BSDBL2 XS5 18BSDBM12 0. general purpose Cylindrical.060 0.145 0.145 Pre-cabled (L = 2 m) (1) M12 connector NO M12 connector terminals 1 & 4 (2) Remote M12 connector NC Pre-cabled (L = 2 m) (1) M12 connector Ø 18.145 0. plain Connection 1.085 0. threaded M8 x 1 2 801231 3 XS5 06BSppL2 XS5 12BSppL2 4 6 XS5 ppBSppM12 825994 7 NO Pre-cabled (L = 2 m) (1) terminals 1 & 4 (2) Remote M12 connector Remote M12 connector NC Pre-cabled (L = 2 m) (1) Remote M12 connector Ø 12. threaded M12 x 1 XSZ B1pp 8 9 10 3/26 Weight kg XS5 06BSCAL2 XS5 06BSCAL01M12 XS5 06BSCBL2 0.075 0.075 0.050 0. threaded M18 x 1 Pre-cabled (L = 2 m) (1) M12 connector NO M12 connector terminals 1 & 4 (2) Remote M12 connector NC Pre-cabled (L = 2 m) (1) M12 connector Ø 30.060 0.205 0.005 0. Example: XS5 08BSCAL2 becomes XS5 08BSCAL5 with a 5 m long cable.050 0. (2) The NO output is connected to terminals 1 and 4 of the M12 connector.205 0. short case model 801120 1 Sensing Function distance (Sn) mm Ø 6. Weight kg 0.035 0.5 Reference Pre-cabled (L = 2 m) (1) M12 connector NO M12 connector terminals 1 & 4 (2) Remote M12 connector NC Pre-cabled (L = 2 m) (1) M12 connector Accessories (3) Description For use with Reference sensors Fixing clamps Ø 6.060 0.5.050 0. 060 Pre-cabled (L = 2 m) (1) XS5 18B1DAL2 Ø 18.006 Ø 12 XSZ B112 0.205 0. standard range. Example: XS5 08B1DAL2 becomes XS5 08B1DAL5 with a 5 m long cable.145 Remote screw terminal connector (2) XS5 30B1DBL01B 825994 Fixing clamps XSZ B1pp 7 0.020 (1) For a 5 m long cable replace L2 by L5. For a 5 m long cable replace P2 by P5. (4) For further information.075 Pre-cabled (L = 2 m) (1) M12 connector XS5 12B1DBM12 0. replace the letter L by P in the reference. threaded M18 x 1 5 NO Low temperature version (. general purpose Cylindrical.120 XS5 18B1CAM12 0.035 XS5 12B1CAM12 0. 2-wire c 12-48 V. Example: XS5 18B1DAL2TF becomes XS5 18B1DAL5TF with a 5 m long cable.120 Ø 30. Example: XS5 18B1DAP2TF becomes XS5 18B1DAP5TF with a 5 m long cable.025 1 2 Ø 12. (5) For a 5 m long cable replace L2 by L5. (3) The NO output is connected to terminals 1 and 4 of the M12 connector.205 Accessories (4) Description 6 0.035 M12 connector XS5 08B1DBM12 0.5 10 3 For use with sensors Reference Weight kg Ø 8 XSZ B108 0. Example: XS5 18B1DAL2TF becomes XS5 18B1DAP2TF.170 Pre-cabled (L = 2 m) (1) XS5 30B1DBL2 0.060 Remote M12 connector XS5 18B1DBL08M12 Remote screw terminal connector (2) XS5 18B1DBL01B XS5 ppB1ppL01C NO Pre-cabled (L = 2 m) (1) XS5 30B1DAL2 Low temperature version (.205 XS5 30B1DAL01G 0.035 Remote M12 connector XS5 12B1DBL08M12 0. threaded M12 x 1 2 NO Pre-cabled (L = 2 m) (1) XS5 12B1DAL2 0. threaded M30 x 1.085 XS5 18B1DAL01C 0.085 Pre-cabled (L = 2 m) (1) XS5 18B1DBL2 0. (2) Protective cable gland included with sensor.050 801268 M12 connector XS5 08B1DAM12 0.085 Remote DIN 43650A connector Remote M18 connector XS5 18B1DAL01G 0. long case model Sensing Function distance (Sn) mm Connection Reference Weight kg Ø 8.050 NC Pre-cabled (L = 2 m) (1) XS5 08B1DBL2 0.060 NO M12 connector terminals 1 & 4 (3) Remote M12 connector NC 0.205 M12 connector XS5 30B1DBM12 0.050 M12 connector XS5ppB1ppM12 XS5 12B1DAM12 0. for a 10 m long cable replace L2 by L10.035 NO M12 connector terminals 1 & 4 (3) Remote M12 connector XS5 12B1CAL08M12 0.025 XS5 08B1CAM12 0.025 NO M12 connector terminals 1 & 4 (3) Remote M12 connector XS5 08B1CAL08M12 0.060 NC XS5 12B1DBL2 0.075 Remote 7/8" connector XS5 12B1DAL08U78 0.5 NO XS5 ppB1ppL2 Pre-cabled (L = 2 m) (1) XS5 08B1DAL2 0.120 0.145 XS5 30B1CAL08M12 0. threaded M8 x 1 1.035 Remote M12 connector XS5 08B1DAL08M12 0.205 XS5 30B1CAM12 0.145 XS5 30B1DAL01C NO M12 connector terminals 1 & 4 (3) Remote M12 connector XS5 ppB1ppL01G 0.References Inductive proximity sensors OsiSense XS.205 Remote screw terminal connector (2) XS5 30B1DAL01B Remote DIN 43650A connector NC XS5 30B1DAM12 4 0. flush mountable Two-wire DC 801267 Sensors.205 Remote M18 connector 5 0.085 0.120 M12 connector XS5 18B1DBM12 0.060 XS5 18B1CAL08M12 0. see page 3/112.40 °C) XS5 18B1DAL2TF (5) XS5 ppB1ppL01B (2) Remote screw terminal connector (2) XS5 18B1DAL01B 0. 8 9 10 3/27 . For a PUR cable.010 Ø 30 XSZ B130 0.40 °C) XS5 30B1DAL2TF (5) M12 connector 0.006 Ø 18 XSZ B118 0.085 M12 connector XS5 18B1DAM12 0. 11 mm2) PUR available (1) Yellow LED: annular Rated supply voltage V c 12…48 non polarised for XS5 ppB1p.. screw terminal (L01B). XS5 ppBSppM12 Product certifications Delays XS5 06.40.80 m flying lead Ø 6.+ 70. DIN 43650A (L01C) and M18 (L01G) remote connectors.40…+ 85 °C . open state mA ≤ 0. closed state V ≤4 Residual current.5 and Ø 8: IP 67) Case Nickel plated brass (except XS5 06 and XS5 08B1: stainless steel. XS5 08 and XS5 12 ≤ 0.5 Maximum switching frequency 7 Connector Operating temperature Materials XS5 ppB1DpL2..5: XS5 06. duration 11 ms Output state indication Yellow LED: 4 viewing ports at 90° PvR 2 x 0.2 (except XS5 30 ≤ 0.. CSA. standard range.5 mm 0…1. c 12…24 non polarised for XS5 ppBS (except Ø 6.2 Ø 12 mm 0…1.25.34 mm2 (except XS5 06 and XS5 08: 2 x 0.15 m flying lead.. replace the letter L in the reference by P. c 10…36 for XS5 ppBS Switching capacity mA 1. general purpose Cylindrical. XS5 08 Hz 1000 for XS5 ppBS.5…100 with overload and short-circuit protection Voltage drop. 1400 for XS5 ppB1p XS5 12 Hz 1000 XS5 18 Hz 1200 XS5 30 Hz 1300 First-up ms ≤ 10 Response ms ≤ 0. M12 (L08M12) and 7/8" (L08U78) remote connectors.6: XS5 30 Recovery ms ≤ 0.2 Ø 8 mm 0…1.5 short and Ø 8 short: polarised) with protection against reverse polarity Voltage limits (including ripple) V c 10…58 for XS5 ppB1p. flush mountable Two-wire DC Characteristics 1 2 3 Sensor type Connection Operating zone 5 6 8 M12 – Pre-cabled – Length: 2 m Remote connector M12 (L01M12).Characteristics Inductive proximity sensors OsiSense XS.. on 0.+ 70 IP 65 and IP 68. on 0.15 of effective sensing distance (Sr) IP 65 and IP 67 Storage temperature °C . amplitude ± 2 mm (f = 10 to 55 Hz) Shock resistance Conforming to IEC 60068-2-27 50 gn. TF products: . e Differential travel Degree of protection 4 XS5 ppB1ppM12. double insulation i (except Ø 6. XS5 ppBSppL2 UL. 9 10 3/28 .6 Ø 18 mm 0…4 Ø 30 mm 0…8 % Conforming to IEC 60529 1..6: XS5 18 ≤ 0.4) (1) For PUR cable. Example: XS5 06BSCAL2 becomes XS5 06BSCAP2 with PUR cable. grade 303) Sensing face PPS Cable – Vibration resistance Conforming to IEC 60068-2-6 25 gn. Inductive proximity sensors Schemes.5 e≥6 e ≥ 15 e ≥ 30 Dimensions (1) Sensors Pre-cabled (mm) M8 connector (mm) Short case model a b a b a b 33 – 42 – 45 – Ø 6. Setting-up 5 Minimum mounting distances (mm) e e e Ø 6. flush mountable Two-wire DC Pre-cabled 2-wire c non polarised NO output BU: Blue BN: Brown XS5 ppB1CAppp NO XS5 ppB1DBppp BN/1 BN/3 See connection on page 9/45. 3 BU/2 M18 (L01G) 2 3 2 3 1 4 4 1 The NO or NC outputs are connected to terminal 2.5 b a (1) LED XS5 06BS Ø 8 XS5 08BS 33 25 42 26 45 24 XS5 12BS 35 25 – – 50 30 Ø 18 XS5 18BS 39 28 – – 50 28 Ø 30 XS5 30BS 43 32 Pre-cabled (mm) – – 55 32 Long case model 7 M12 connector (mm) Ø 12 Sensors 6 8 M12 connector (mm) a b a b Ø 8 XS5 08B1 51 42 62 40 Ø 12 XS5 12B1 53 42 62 42 Ø 18 XS5 18B1 62 52 74 52 Ø 30 XS5 30B1 62 52 74 52 9 10 3/29 . 2-wire z).5 e ≥ 4. setting-up. L01G Screw terminal (L01B) BN/1 NC BU/4 DIN 43650 A (L01C) The terminal numbering differs according to the version (2-wire c.5 Ø 8 Ø 12 Ø 18 Ø 30 Side by side e≥3 e≥3 e≥4 e ≥ 10 e ≥ 20 Face to face e ≥ 18 e ≥ 18 e ≥ 24 e ≥ 60 e ≥ 120 Facing a metal object e ≥ 4. dimensions Wiring schemes Connector M12 4 3 1 2 OsiSense XS. 1 NC output XS5 ppB1DAppp NO BU/4 BN/1 NC BU/4 BU/2 2 2-wire c polarised NO output NC output XS5 ppBSCAppp XS5 ppBSCBppp BN/1 NO Remote connectors L01B. standard range. 3-wire c. general purpose Cylindrical. L01C. see page 3/112. double insulation. threaded M18 x 1 3 Sensing distance (Sn) mm XS5 ppB1MpU20 5 1/2"-20UNF connector NC 4 XS5 18B1MAU20 Pre-cabled (L = 2 m) (2) XS5 18B1MBL2 XS5 18B1MBU20 Function Connection Reference NO Pre-cabled (L = 2 m) (2) XS5 30B1MAL2 0. standard range.100 0. Example: XS5 12B1MAL2 becomes XS5 12B1MAL5 with a 5 m long cable. threaded M12 x 1 Sensing distance (Sn) mm 2 Function Connection NO Pre-cabled (L = 2 m) (2) XS5 12B1MAL2 1/2"-20UNF connector XS5 ppB1MpL2 XS5 12B1MAU20 Pre-cabled (L = 2 m) (2) XS5 12B1MBL2 1/2"-20UNF connector XS5 12B1MBU20 Function Connection Reference NO Pre-cabled (L = 2 m) (2) XS5 18B1MAL2 Weight kg 0. 8 9 10 3/30 Weight kg .205 0. flush mountable Two-wire AC or DC (1) 801277 1 Sensors.025 0. (3) For further information.025 801278 2 NC Reference Ø 18. (2) For a 5 m long cable replace L2 by L5.References Inductive proximity sensors OsiSense XS.060 0.075 0.100 0.205 0.145 0. long case model Ø 12. threaded M30 x 1.075 0. for a 10 m long cable replace L2 by L10.5 Sensing distance (Sn) mm 5 10 1/2"-20UNF connector XS5 30B1ppL2 NC Pre-cabled (L = 2 m) (2) XS5 30B1MBL2 1/2"-20UNF connector XS5 30B1MBU20 0. version available: see page 3/60.020 (1) Ø8 plastic.010 Ø 30 XSZ B130 0.060 822115 1/2"-20UNF connector Weight kg Ø 30. 2-wire z 24-240 V. general purpose Cylindrical.145 825994 6 XS5 30B1MAU20 Weight kg Accessories (3) 7 XSZ B1pp Description Fixing clamps For use with sensors Reference Ø 12 XSZ B112 0.006 Ø 18 XSZ B118 0. XS5 18B1Mppp Hz a 25 or c 1000 XS5 30B1Mppp Hz a 25 or c 500 Delays First-up ms ≤ 20 XS5 12B1Mppp.6 Ø 18 mm 0…4 Ø 30 mm 0…8 % 1. ≤ 2 XS5 30B1Mppp 5 6 (1) It is essential to connect a 0. e Case Nickel plated brass Sensing face PPS Cable – Vibration resistance Conforming to IEC 60068-2-6 25 gn. dimensions OsiSense XS. 7 BU/3 t: on connector models only Setting-up Minimum mounting distances (mm) e 8 e e Sensor Ø 12 Ø 18 Ø 30 Dimensions b a Face to face e ≥ 48 e ≥ 100 e ≥ 180 Facing a metal object e ≥ 12 e ≥ 25 e ≥ 45 9 XS6 Sensor (1) Side by side e≥8 e ≥ 16 e ≥ 30 Pre-cabled (mm) Connector (mm) a b a b XS5 12B1M 53 42 62 42 XS5 18B1M 62 52 73 52 XS5 30B1M 62 52 73 52 10 (1) LED 3/31 .2 XS5 12B1Mppp. double insulation i IP 69K Storage temperature °C .5 Residual current. CSA.5 Recovery ms ≤ 0.8 Maximum switching frequency XS5 12B1ppp. ≤ 25 XS5 18B1Mppp and XS5 30B1Mppp Response ms ≤ 0.15 of effective sensing distance (Sr) Pre-cabled Differential travel Degree of protection Conforming to IEC 60529 1/2"-20UNF – – Length: 2 m IP 65 and IP 67 Conforming to DIN 40050 2 IP 65 and IP 68. flush mountable Two-wire AC or DC Characteristics Sensor type XS5 ppB1MpU20 Product certifications XS5 ppB1MpL2 Connection Connector Operating zone Ø 12 mm 0…1. ≤ 0. open state mA ≤ 0. closed state V ≤ 5.34 mm2 Yellow LED: 4 viewing ports at 90° Rated supply voltage V a or c 24…240 (a 50/60 Hz) Voltage limits (including ripple) V a or c 20…264 Switching capacity XS5 12B1Mppp mA 5…200 (1) XS5 18B1Mppp.40…+ 85 Operating temperature °C .4 A “quick-blow” fuse in series with the load. amplitude ± 2 mm (f = 10 to 55 Hz) Shock resistance Conforming to IEC 60068-2-27 50 gn..25…+ 70 Materials 1 UL. general purpose Cylindrical. setting-up.. Wiring schemes Connector 1/2"-20UNF 1 2 3 z: 2 t: 1 z: 3 Pre-cabled 2-wire a or c NO or NC output BU: Blue BN: Brown BN/2 /1 See connection on page 9/45. XS5 30B1Mppp Yellow LED: annular 4 mA a 5…300 or c 5…200 (1) Voltage drop.Inductive proximity sensors Characteristics. standard range. schemes. duration 11 ms Output state indication 3 PvR 2 x 0.5 XS5 18B1Mppp. 090 Pre-cabled (L = 2 m) (1) 1 M12 connector 1 XS1 12B3NAM12 0.030 Pre-cabled (L = 2 m) (1) 1 XS1 06B3PBL2 0.070 M8 connector 1 XS1 08B3NBM8 0.070 M8 connector 1 XS1 08B3PAM8 0. threaded M8 x 1 801167 4 2. flush mountable Three-wire DC.030 M12 connector 1 XS1 08B3NAM12 0.470 XS1 12B3NAL2 0.5 2 Sold in Reference lots of unit Ø 12.030 Pre-cabled (L = 2 m) (1) 1 M12 connector 1 (1) For a 5 m long cable replace L2 by L5.030 M12 connector 1 XS1 08B3PBM12 0. general purpose Cylindrical. 9 10 Characteristics: page 3/35 3/32 Dimensions: page 3/35 Schemes: page 3/35 Setting-up: page 3/35 .060 M8 connector 1 XS1 06B3PAM8 0.940 Pre-cabled (L = 2 m) (1) 1 XS1 08B3NAL2 0. Example: XS1 06B3PAL2 becomes XS1 06B3PAL5 with a 5 m long cable.050 Pre-cabled (L = 2 m) 20 XS1 06B3PAL2TQ 0.460 M12 connector 20 XS1 08B3PAM12TQ 0.030 M12 connector 1 XS1 08B3PAM12 0.030 Pre-cabled (L = 2 m) (1) 1 XS1 06B3NBL2 0.090 M12 connector 1 XS1 12B3PAM12 0.600 M12 connector 20 XS1 12B3PAM12TQ 0.030 Pre-cabled (L = 2 m) 20 XS1 12B3PAL2TQ 1.030 M12 connector 1 XS1 06B3PAM12 0. solid-state output Sensors.030 Pre-cabled (L = 2 m) 20 XS1 12B3NAL2TQ 1.060 Pre-cabled (L = 2 m) 20 XS1 08B3PAL2TQ 1.090 XS1 12B3NBM12 0.5 NO PNP XS1 08B3ppM8 NPN 5 NC PNP 7 801214 NPN 6 Weight kg Ø 6.060 Pre-cabled (L = 2 m) (1) 1 XS1 08B3NBL2 0.460 Pre-cabled (L = 2 m) (1) 1 XS1 08B3PBL2 0.030 Pre-cabled (L = 2 m) (1) 1 XS1 08B3PAL2 0. increased range.980 M8 connector 20 XS1 06B3PAM8TQ 0.470 XS1 12B3PBL2 0.030 M12 connector 20 XS1 12B3PBM12TQ 0.060 M8 connector NPN 3 M8 connector Ø 8.120 M8 connector 20 XS1 08B3NAM8TQ 0.070 M8 connector 1 XS1 08B3PBM8 0.5.070 M8 connector 1 XS1 08B3NAM8 0. plain 2. short case model 801120 1 Sensing Function Output Connection distance (Sn) mm NO XS1 06B3ppL2 PNP NPN NC PNP Pre-cabled (L = 2 m) (1) 1 XS1 06B3PAL2 0. 3-wire c 12-24 V.600 M12 connector 20 XS1 12B3NAM12TQ 0.060 Pre-cabled (L = 2 m) 20 XS1 08B3NAL2TQ 1.090 Pre-cabled (L = 2 m) (1) 1 M12 connector 1 XS1 12B3PBM12 0.060 1 XS1 06B3PBM8 0.060 1 XS1 06B3NBM8 0. threaded M12 x 1 4 NO PNP NPN XS1 12B3ppL2 NC 8 PNP NPN Pre-cabled (L = 2 m) (1) 1 XS1 12B3PAL2 0.References (continued) Inductive proximity sensors OsiSense XS.120 M8 connector 20 XS1 08B3PAM8TQ 0.320 Pre-cabled (L = 2 m) 1 XS1 06B3NAL2 0.030 M12 connector 1 XS1 08B3NBM12 0.060 M8 connector 1 XS1 06B3NAM8 0.470 XS1 12B3NBL2 0. 130 4 5 Accessories (2) Description 825994 Fixing clamps XSZ B1pp For use with sensors Reference Weight kg Ø 6.180 XS1 30B3PAM12 0.130 Pre-cabled (L = 2 m) 20 XS1 30B3PAL2TQ 3. general purpose Cylindrical.140 Pre-cabled (L = 2 m) (1) 1 M12 connector NPN XS1 18B3PAL2 M12 connector M12 connector NC 1 1 Pre-cabled (L = 2 m) (1) 1 M12 connector 1 XS1 18B3PBL2 0.000 20 XS1 18B3PAM12TQ 1.000 Pre-cabled (L = 2 m) (1) 1 M12 connector XS1 30B3ppL2 1 1 Pre-cabled (L = 2 m) (1) 1 M12 connector 1 XS1 30B3PBL2 0. 6 7 8 9 10 Characteristics: page 3/35 Dimensions: page 3/35 Schemes: page 3/35 Setting-up: page 3/35 3/33 .005 Ø 8 (M8 x 1) XSZ B108 0.060 XS1 18B3NBL2 0.130 XS1 30B3NBL2 0.060 Pre-cabled (L = 2 m) 20 XS1 18B3NAL2TQ 2.130 M12 connector 20 XS1 30B3NAM12TQ 2.5) XSZ B130 0. 3-wire c 12-24 V.006 Ø 12 (M12 x 1) XSZ B112 0.5 (plain) XSZ B165 0. Example: XS1 18B3PAL2 becomes XS1 18B3PAL5 with a 5 m long cable.020 (1) For a 5 m long cable replace L2 by L5.000 XS1 30B3NAL2 0. threaded M18 x 1 8 NO PNP Pre-cabled (L = 2 m) (1) 1 M12 connector NPN XS1 18B3ppM12 821936 PNP 0.180 Pre-cabled (L = 2 m) (1) 1 M12 connector 1 XS1 30B3NAM12 0. (2) For further information.180 XS1 30B3NBM12 0. solid-state output Sensors.006 Ø 18 (M18 x 1) XSZ B118 0.5 XS1 18B3ppL2 15 NO PNP Pre-cabled (L = 2 m) (1) 1 822115 M12 connector NPN NC PNP NPN XS1 30B3PAL2 0.000 M12 connector 20 XS1 18B3NAM12TQ 1.110 XS1 18B3NBM12 0. see page 3/112.180 XS1 30B3PBM12 0.010 Ø 30 (M30 x 1.140 Pre-cabled (L = 2 m) (1) 1 1 XS1 18B3NAL2 0. short case model (continued) 821938 Sensing Function Output Connection distance (Sn) mm Sold in lots of Unit reference Weight kg Ø 18.110 XS1 18B3NAM12 0. threaded M30 x 1.References (continued) Inductive proximity sensors OsiSense XS. flush mountable Three-wire DC.110 XS1 18B3PAM12 0.060 1 2 3 Ø 30.110 XS1 18B3PBM12 0.060 Pre-cabled (L = 2 m) 20 XS1 18B3PAL2TQ 2. increased range.360 M12 connector 20 XS1 30B3PAM12TQ 2. 020 0. threaded M8 x 1 NO PNP Pre-cabled (L = 2 m) (1) 2.010 0. threaded M30 x 1.145 0.100 0. Weight kg 0.020 0.075 0.035 0.205 0. solid-state output Sensors. threaded M18 x 1 NO PNP 8 NPN XS6ppB1ppL01B (2) NC 6 PNP NPN XS6ppB1ppL01C Ø 30.100 0.006 0.205 0.075 0.100 0. see page 3/112.015 0.100 0.100 0.5 M12 connector NPN Pre-cabled (L = 2 m) (1) M12 connector NC PNP Pre-cabled (L = 2 m) (1) M12 connector NPN Pre-cabled (L = 2 m) (1) M12 connector 801268 Ø 12.205 0.006 0.205 0. 3-wire c 12-48 V.040 0.205 0.5 NO PNP 15 7 NPN 8 NC PNP XS6ppB1ppL01G NPN 9 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector Reference Weight kg XS6 08B1PAL2 XS6 08B1PAM12 XS6 08B1NAL2 XS6 08B1NAM12 XS6 08B1PBL2 XS6 08B1PBM12 XS6 08B1NBL2 XS6 08B1NBM12 0.205 0.100 0. threaded M12 x 1 NO PNP 4 3 NPN NC XS6ppB1ppM12 4 5 PNP NPN Ø 18. general purpose Cylindrical.075 0.100 0.100 0.035 0.205 0.205 0. increased range. flush mountable Three-wire DC.040 0.020 0.100 0.040 0.015 0. Example: XS6 08B1PAL2 becomesXS6 08B1PAL5 with a 5 m long cable.145 0.100 0.100 Pre-cabled (L = 2 m) (1) XS6 30B1PAL2 M12 connector XS6 30B1PAM12 Remote screw terminal connector XS6 30B1PAL01B (2) Remote DIN 43650 connector XS6 30B1PAL01C Remote M18 connector XS6 30B1PAL01G Pre-cabled (L = 2 m) (1) XS6 30B1NAL2 M12 connector XS6 30B1NAM12 Remote screw terminal connector XS6 30B1NAL01B (2) Remote DIN 43650 connector XS6 30B1NAL01C Pre-cabled (L = 2 m) (1) XS6 30B1PBL2 M12 connector XS6 30B1PBM12 Remote screw terminal connector XS6 30B1PBL01B (2) Remote DIN 43650 connector XS6 30B1PBL01C Remote M18 connector XS6 30B1PBL01G Pre-cabled (L = 2 m) (1) XS6 30B1NBL2 M12 connector XS6 30B1NBM12 Remote screw terminal connector XS6 30B1NBL01B (2) 0. (3) For further information.040 0. (2) Protective cable gland included with sensor.205 Remote DIN 43650 connector XS6 30B1NBL01C 0. for a 10 m long cable replace L2 by L10.205 0.205 Accessories (3) 825994 Description 10 Fixing clamps XSZ Bppp 3/34 For use with sensors Reference Ø 8 XSZ B108 Ø 12 XSZ B112 Ø 18 XSZ B118 Ø 30 XSZ B130 (1) For a 5 m long cable replace L2 by L5.035 0.015 XS6 12B1PAL2 XS6 12B1PAM12 XS6 12B1NAL2 XS6 12B1NAM12 XS6 12B1PBL2 XS6 12B1PBM12 XS6 12B1NBL2 XS6 12B1NBM12 0.020 .015 0.145 0.035 0.References Inductive proximity sensors OsiSense XS.145 0.100 0.205 0.075 0.205 0.020 Pre-cabled (L = 2 m) (1) XS6 18B1PAL2 M12 connector XS6 18B1PAM12 Remote screw terminal connector XS6 18B1PAL01B (2) Remote DIN 43650 connector XS6 18B1PAL01C Remote M18 connector XS6 18B1PAL01G Pre-cabled (L = 2 m) (1) XS6 18B1NAL2 M12 connector XS6 18B1NAM12 Remote screw terminal connector XS6 18B1NAL01B (2) Remote DIN 43650 connector XS6 18B1NAL01C Pre-cabled (L = 2 m) (1) XS6 18B1PBL2 M12 connector XS6 18B1PBM12 Remote screw terminal connector XS6 18B1PBL01B (2) Remote DIN 43650 connector XS6 18B1PBL01C Pre-cabled (L = 2 m) (1) XS6 18B1NBL2 M12 connector XS6 18B1NBM12 Remote screw terminal connector XS6 18B1NBL01B (2) Remote DIN 43650 connector XS6 18B1NBL01C 0.205 0.100 0. long case model 801267 1 2 XS6ppB1ppL2 Sensing Function Output Connection distance (Sn) mm Ø 8. 15 m flying lead.5 and Ø 8: IP 67 IP 69K for Ø 12. 18 and 30 sensors .6 for Ø 30 y 0.15 of effective sensing distance (Sr) IP 65 and IP 67 IP 65 and IP 68. setting-up. Ø 8 and Ø 12 Ø 18 Ø 30 Delays First-up Response Recovery V mA V mA Hz Hz Hz ms ms ms 1 Connector (1) M8 4 1 4 3 3 1 5 6 Minimum mounting distances (mm) BU: Blue BN: Brown BK: Black e NPN + BN/1 PNP BK/4 (NO) BK/2 (NC) – BU/3 e e 7 2 PNP Sensors + BN/1 NPN 4 Setting-up Pre-cabled M12 3 Yellow LED. no-load Maximum switching frequency Ø 6. Wiring schemes (See connection on page 9/45) 2 BK/4 (NO) BK/2 (NC) – BU/3 For M8 connector. 4 viewing ports at 90° Rated supply voltage V Voltage limits (including ripple) Switching capacity Voltage drop.3 for Ø 18.4 for Ø 30 (1) Detection curves. amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn. see page 3/29. Ø 8 and Ø 12. double insulation i except Ø 6. dimensions OsiSense XS.4 0…12 1. CSA.5 eu5 Ø 8 Ø 12 Face to face Facing a metal object e u 30 eu8 eu5 e u 30 eu8 eu8 e u 50 e u 12 Ø 18 e u 16 e u 100 e u 25 Ø 30 e u 30 e u 180 e u 45 8 (1) For pin arrangement of remote connectors L01B. on 0. e M8 – M12 – – Length 2 m Remote screw terminal (L01B). increased range. y 0.11 mm2 25 gn.5.25…+ 70 Nickel plated brass (except XS6 08: stainless steel. Dimensions (1) Sensors Pre-cabled (mm) M8 connector (mm) Short case model a b a b b a (1) LED M12 connector (mm) a b Ø 6.34 mm2 except Ø 6.5 XS1 06B3 33 – 42 – 45 – Ø 8 XS1 08B3 33 25 42 26 45 24 Ø 12 XS1 12B3 35 25 – – 50 30 Ø 18 XS1 18B3 39 28 – – 50 28 Ø 30 XS1 30B3 43 32 – – 55 32 Sensors Pre-cabled (mm) Long case model 9 M12 connector (mm) a b a b Ø 8 XS6 08B1 51 42 62 40 Ø 12 XS6 12B1 53 42 62 42 Ø 18 XS6 18B1 62 52 74 52 Ø 30 XS6 30B1 62 52 74 52 10 3/35 . annular XS1: c 12…24 with protection against reverse polarity XS6: c 12…48 with protection against reverse polarity XS1: c 10…36.2 for Ø 6. y 0.5. solid-state output Characteristics Sensor type Product certifications Connection Connector Pre-cabled Remote connector Operating zone (1) mm mm mm mm % Ø 6. schemes. flush mountable Three-wire DC. closed state Current consumption. see page 3/116. y 0. y 1. XS6: c 10…58 y 200 with overload and short-circuit protection y2 y 10 2500 1000 500 y 10 y 0... Ø 8 and Ø 12.5.5 and Ø 8 Ø 12 Ø 18 Ø 30 Differential travel Degree of protection Conforming to IEC 60529 Conforming to DIN 40050 Storage temperature Operating temperature Materials °C °C Case Sensing face Cable Vibration resistance Shock resistance Output state indication Conforming to IEC 60068-2-6 Conforming to IEC 60068-2-27 XS1/XS6ppBpppM8 XS1/XS6ppBpppM12 XS1/XS6ppBpppL2 UL. general purpose Cylindrical. grade 303) PPS – PvR 3 x 0. L01C and L01G.2 0…6.40…+ 85 . 0…2 0…3.7 for Ø 18.Inductive proximity sensors Characteristics.2 for Ø 6. duration 11 ms Yellow LED. DIN 43650A (L01C) and M18 (L01G) connectors.5 and 8: 3 x 0. NO and NC outputs on terminal 4 Side by side Ø 6. 100 M12 connector XS6 18B1DBM12 0.180 M12 connector XS6 12B1DAM12 0. 2-wire c 12-48 V.040 Pre-cabled (L = 2 m) (1) XS6 18B1DBL2 0.035 M12 connector XS6 08B1DBM12 0.070 Remote M12 connector XS6 08B3CBL01M12 0.5 15 NC Pre-cabled (L = 2 m) (1) XS6 30B1DAL2 0.180 Sensors.006 Ø 12 (M12 x 1) XSZ B112 0.060 Ø 30.5 (plain) XSZ B165 0. threaded M18 x 1 8 4 Pre-cabled (L = 2 m) (1) M12 connector Sensing distance Function (Sn) mm Connection Reference Weight kg NO Pre-cabled (L = 2 m) (1) XS6 06B1DAL2 0.5.5 XS6 06B3ppL2 2 NO NC Pre-cabled (L = 2 m) (1) XS6 06B3CAL2 0.060 NC Pre-cabled (L = 2 m) (1) XS6 06B1DBL2 0.015 Ø 12. plain 2. threaded M8 x 1 2.020 Ø 18. threaded M18 x 1 8 8 XS6ppB1ppM12 NO NC Pre-cabled (L = 2 m) (1) XS6 18B1DAL2 0. flush mountable Two-wire DC.References Inductive proximity sensors OsiSense XS. general purpose Cylindrical.010 Ø 30 (M30 x 1.075 M12 connector XS6 12B1DBM12 0.070 Remote M12 connector XS6 08B3CAL01M12 0.180 M12 connector XS6 30B3DAM12 0.130 Pre-cabled (L = 2 m) (1) XS6 30B3DBL2 0.070 Pre-cabled (L = 2 m) (1) XS6 08B3CBL2 0.180 M12 connector XS6 30B3DBM12 0.070 Pre-cabled (L = 2 m) (1) XS6 06B3CBL2 0. plain 2. see page 3/112. Example: XS6 06B3CAL2 becomes XS6 06B3CAL5 with a 5 m long cable.5 6 XS6ppB1ppL2 Ø 8.015 Pre-cabled (L = 2 m) (1) XS6 08B1DBL2 0.060 Remote M12 connector XS6 06B3CAL01M12 0. (2) For further information.020 Pre-cabled (L = 2 m) (1) XS6 12B1DBL2 0.090 M12 connector XS6 12B3DBM12 0. threaded M12 x 1 4 801268 7 Pre-cabled (L = 2 m) (1) M12 connector NO NC Pre-cabled (L = 2 m) (1) XS6 12B1DAL2 0.110 M12 connector XS6 18B3DBM12 0. threaded M30 x 1.145 Pre-cabled (L = 2 m) (1) XS6 30B1DBL2 0.060 Ø 8. 2-wire c 12-24 V.090 0.205 M12 connector XS6 30B1DAM12 0.030 Pre-cabled (L = 2 m) (1) XS6 12B3DBL2 0.040 Ø 30. increased range.020 (1) For a 5 m long cable replace L2 by L5.5 15 NO NC Pre-cabled (L = 2 m) (1) XS6 30B3DAL2 0.060 Pre-cabled (L = 2 m) (1) XS6 18B3DBL2 0.030 Pre-cabled (L = 2 m) (1) XS6 18B3DAL2 0.070 Ø 12.100 M12 connector XS6 18B1DAM12 0.035 XS6 08B1DAM12 0.5 NO NC Pre-cabled (L = 2 m) (1) XS6 08B3CAL2 0. long case model 801267 5 XS6 12B3DAL2 XS6 12B3DAM12 Ø 18.145 For use with sensors Reference Accessories (2) 825994 9 NO Description Fixing clamps XSZ B1pp 10 Ø 6.5) XSZ B130 0.205 M12 connector XS6 30B1DBM12 0. 3/36 Weight kg .5 NO NC XS6 08B1DAL2 0.110 M12 connector XS6 18B3DAM12 0. threaded M12 x 1 4 3 NO 801231 NC NO NC XS6 12B3ppL2 0. threaded M8 x 1 2. short case model Sensing distance Function (Sn) mm Connection Reference Weight kg Ø 6.006 Ø 18 (M18 x 1) XSZ B118 0. solid-state output 801120 1 Sensors. threaded M30 x 1.005 Ø 8 (M8 x 1) XSZ B108 0.060 Ø 6.5. 5 XS6 06B3C 33 – – – Ø 8 XS6 08B3C 33 25 – 24 Ø 12 XS6 12B3D 35 25 50 30 b Ø 18 XS6 18B3D 39 28 50 28 Ø 30 XS6 30B3D 43 32 55 32 a b Long case model a b Ø 6. flush mountable Two-wire DC. CSA.6 for Ø 30 Setting-up 2 3 4 5 6 Minimum mounting distances (mm) BU: Blue BN: Brown 3 1 e e 1 2-wire 2c non polarised NO output NC output BN/3 NO BU/4 Sensors BN/1 NC BU/2 2-wire c polarised XS6ppB3CA XS6ppB3CB BN/1 NO BU/4 Ø 6.3 for Ø 18. c 12…24 non polarised for XS6 ppB3p (except Ø 6.5 short and Ø 8 short: polarised). setting-up.5 and Ø 8: IP 67) IP 69K . 4 viewing ports at 90° c 12…48 non polarised for XS6 ppB1D. 0.11 mm2 25 gn. general purpose Cylindrical.5 mA 1400 for XS6 ppB1D.15 of effective sensing distance (Sr) IP 65 and IP 67 IP 65 and IP 68. with protection against reverse polarity c 10…58 for XS6 ppB1D c 10…36 for XS6 ppB3p y 100 with overload and short-circuit protection y4 y 0. double insulation i (except Ø 6.15 m flying lead Length 2 m 0…2 0…3. grade 303) PPS PvR 2 x 0. e M12 connector or remote M12 connector (L01M12) on 0.2 for Ø 6.5. closed state Residual current.Inductive proximity sensors Characteristics.2 0…6. increased range. schemes. see page 3/116.5 and Ø 8 Ø 12 Ø 18 Ø 30 Conforming to IEC 60529 Conforming to DIN 40050 Case Sensing face Cable Conforming to IEC 60068-2-6 Conforming to IEC 60068-2-27 mm mm mm mm % °C °C V Voltage limits (including ripple) V Switching capacity Voltage drop. mA V mA Hz Hz Hz Hz ms ms ms Wiring schemes (See connection on page 9/45) M12 connector 4 Pre-cabled XS6ppB3ppM12 XS6ppB3ppL2 XS6ppB1DpM12 XS6ppB1DpL2 UL.34 mm2 except Ø 6. 1100 for XS6 ppB3p 1300 1500 800 y 10 y 0. Ø 8 and Ø 12.. duration 11 ms Yellow LED. 0.5 and Ø 8: 2 x 0. Ø 8 Ø 12 Ø 18 Ø 30 Delays First-up Response Recovery (1) Detection curves.5 y 0. dimensions OsiSense XS.5 Side by side eu5 Face to face e u 30 eu8 Facing a metal object Ø 8 eu5 e u 30 eu8 Ø 12 eu8 e u 50 e u 12 Ø 18 e u 16 e u 100 e u 25 Ø 30 e u 30 e u 180 e u 45 8 BN/1 NC 7 BU/2 Dimensions (1) b a (1) LED Sensors Pre-cabled (mm) M12 connector (mm) Short case model a b a Ø 6.40…+ 85 .. open state Maximum switching frequency Ø 6.5 XS6 06B1D 51 – – – Ø 8 XS6 08B1D 51 42 62 40 Ø 12 XS6 12B1D 53 42 62 42 Ø 18 XS6 18B1D 62 52 74 52 Ø 30 XS6 30B1D 62 52 74 52 9 10 3/37 .4 0…12 1.25…+ 70 Nickel plated brass (except XS6 06B1D and XS6 08B1D: stainless steel. amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn. solid-state output Characteristics Sensor type Product certifications Connection Operating zone (1) Differential travel Degree of protection Storage temperature Operating temperature Materials Vibration resistance Shock resistance Output state indication Rated supply voltage Connector Pre-cabled Ø 6.5. increased range.025 Pre-cabled (L = 2 m) (2) XS6 12B1MBL2 0. (3) Protective cable gland included with sensor. 2-wire z 24-240 V.References Inductive proximity sensors OsiSense XS.060 801268 Ø 18. see page 3/112.145 Ø 30. threaded M12 x 1 4 2 Function XSZ B1pp 10 3/38 Weight kg .025 Pre-cabled (L = 2 m) (2) XS6 18B1MAL2 0.205 Remote DIN 43650A connector XS6 30B1MBL01C 0.205 Remote M18 connector XS6 30B1MBL01G 0. double insulation.100 Pre-cabled (L = 2 m) (2) XS6 18B1MBL2 0.205 1/2"-20UNF connector XS6 30B1MAU20 0.100 1/2"-20UNF connector XS6 18B1MBU20 0. threaded M30 x 1.100 1/2"-20UNF connector XS6 18B1MAU20 0.020 Accessories (4) 6 Description Fixing clamps XS6ppB1ppL01C (1) Ø 8 plastic.100 Remote DIN 43650A connector XS6 18B1MAL01C 0. version available: see page 3/60.006 Ø 18 XSZ B118 0.5 15 NO Remote screw terminal connector XS6 30B1MAL01B (3) XS6ppB1ppL01B (3) 5 NC 0. 7 8 825994 XS6ppB1ppL01G 9 Weight Ø 12.205 For use with sensors Reference Ø 12 XSZ B112 0.205 Remote DIN 43650A connector XS6 30B1MAL01C 0.205 1/2"-20UNF connector XS6 30B1MBU20 0. (4) For further information. general purpose Cylindrical. Example: XS6 12B1MAL2 becomes XS6 12B1MAL5 with a 5 m long cable. threaded M18 x 1 8 NO Remote screw terminal connector XS6 18B1MAL01B (3) 3 XS6 ppB1ppU20 NC 4 0.060 Remote screw terminal connector XS6 18B1MBL01B (3) 0.010 Ø 30 XSZ B130 0.075 1/2"-20UNF connector XS6 12B1MBU20 0.075 1/2"-20UNF connector XS6 12B1MAU20 0. for a 10 m long cable replace L2 by L10.100 Remote M18 connector XS6 18B1MAL01G 0. (2) For a 5 m long cable replace L2 by L5.145 Remote screw terminal connector XS6 30B1MBL01B (3) 0.100 Remote DIN 43650A connector XS6 18B1MBL01C 0.100 Pre-cabled (L = 2 m) (2) XS6 30B1MAL2 0.205 Pre-cabled (L = 2 m) (2) XS6 30B1MBL2 0.205 Remote M18 connector XS6 30B1MAL01G 0.100 Remote M18 connector XS6 18B1MBL01G 0. long case model Sensing distance (Sn) mm Connection Reference XS6 ppB1MpL2 kg NO NC Pre-cabled (L = 2 m) (2) XS6 12B1MAL2 0. flush mountable Two-wire AC or DC (1) 801267 1 Sensors. 15 of effective sensing distance (Sr) Conforming to IEC 60529 IP 65.2 for Ø 12 sensors.40…+ 85 Operating temperature °C . dimensions OsiSense XS.Inductive proximity sensors Characteristics. amplitude ± 2 mm (f = 10 to 55 Hz) Shock resistance Conforming to IEC 60068-2-27 50 gn.15 m flying lead. Ø 12 mm 0…3.. y 20 for Ø 12 sensors Response ms y 0. y 2 for Ø 30 sensors 6 (1) Detection curves. CSA. on 0.5 Recovery ms y 0. duration 11 ms Output state indication 3 Yellow LED: annular on pre-cabled version Yellow LED with 4 viewing ports at 90° on connector version Rated supply voltage V z 24…240 (~ 50/60 Hz) Voltage limits (including ripple) V z 20…264 Switching capacity XS6 12B1Mppp mA 5…200 (2) XS6 18B1Mppp XS6 30B1Mppp mA a 5…300 or c 5…200 (2) Voltage drop. flush mountable Two-wire AC or DC Characteristics Sensor type XS6ppB1MpU20 Product certifications XS6ppB1MpLp 1 UL. Wiring schemes Connector (1) 1/2"-20UNF 1 2 3 z: 2 t: 1 z: 3 Pre-cabled 2-wire a or c NO or NC output BU: Blue BN: Brown 7 BN/2 BU/3 /1 See connection on page 9/45. (2) It is essential to connect a 0. L01C and L01G. schemes. DIN 43650A (L01C) and M18 (L01G) connectors. see page 3/116.8 Maximum switching frequency Ø 12 (DC/AC) Ø 18 Hz Hz c 1000 / a 25 Ø 30 Hz c 500 / a 25 Delays 4 y 5.2 Ø 18 mm 0…6.34 mm2 25 gn. y 0. e Connection Operating zone (1) Connector 1/2"-20UNF – Pre-cabled – Length 2 m Remote connector Remote screw terminal (L01B). see page 3/29.25…+ 70 IP 65 and IP 68. increased range.5 for Ø 18 sensors. setting-up. general purpose Cylindrical. double insulation i Materials Case Nickel plated brass Vibration resistance Sensing face Cable Conforming to IEC 60068-2-6 PPS PvR 2 x 0..5 5 c 1000 / a 25 First-up ms y 25 for Ø 18 and Ø 30 sensors. open state mA y 0. t: on connector models only (1) For pin arrangement of remote connectors L01B. closed state V Residual current.4 A “quick-blow” fuse in series with the load. IP 67 Conforming to DIN 40050 IP 69K Storage temperature °C . Setting-up 8 Minimum mounting distances (mm) e e e Sensors Dimensions (1) b a Side by side Face to face Facing a metal object Ø 12 e≥8 e ≥ 50 e ≥ 12 Ø 18 e ≥ 16 e ≥ 100 e ≥ 25 Ø 30 e ≥ 30 e ≥ 180 e ≥ 45 Sensors Pre-cabled (mm) 9 Connector (mm) a b a b Ø 12 XS6 12B1Mp 53 42 62 42 Ø 18 XS6 18B1Mp 62 52 73 52 Ø 30 XS6 30B1Mp 62 52 73 52 10 (1) LED 3/39 .4 Ø 30 mm 0…12 Differential travel % Degree of protection 2 1. Example: XS6 12B4PAL2 becomes XS6 12B4PAL5 with a 5 m long cable.205 0.075 0. solid-state output Sensors.020 0.205 0.075 0.040 DF52381 Ø 30.020 (1) For a 5 m long cable replace L2 by L5.040 0. threaded M18 x 1 DF534464 3 XS6 12B4NAM12 Pre-cabled (L = 2 m) (1) XS6 12B4PBL2 M12 connector NPN XS6 12B4PAM12 Pre-cabled (L = 2 m) (1) XS6 12B4NAL2 M12 connector XS6 12B4ppL2 Reference XSZ Bppp For use with sensors Reference Ø 12 XSZ B112 0.145 0.006 Ø 18 XSZ B118 0.145 0.100 0.040 0. threaded M30 x 1.5 Sensing distance Function Output (Sn) mm 22 NO PNP Pre-cabled (L = 2 m) (1) XS6 30B4PAL2 M12 connector 6 NPN NC PNP 7 XS6 30B4NAM12 Pre-cabled (L = 2 m) (1) XS6 30B4PBL2 M12 connector NPN XS6 30B4PAM12 Pre-cabled (L = 2 m) (1) XS6 30B4NAL2 M12 connector XS6 30B4ppM12 XS6 30B4PBM12 Pre-cabled (L = 2 m) (1) XS6 30B4NBL2 M12 connector XS6 30B4NBM12 Weight kg 0.010 Ø 30 XSZ B130 0. 9 10 3/40 Weight kg . see page 3/112.. threaded M12 x 1 7 NO PNP Connection Pre-cabled (L = 2 m) (1) XS6 12B4PAL2 M12 connector NPN 2 NC PNP Pre-cabled (L = 2 m) (1) XS6 12B4NBL2 M12 connector XS6 12B4NBM12 Sensing distance Function Output (Sn) mm Connection Reference 12 NO PNP Pre-cabled (L = 2 m) (1) XS6 18B4PAL2 M12 connector NPN 4 PNP 5 XS6 18B4NAM12 Pre-cabled (L = 2 m) (1) XS6 18B4PBL2 M12 connector NPN XS6 18B4PAM12 Pre-cabled (L = 2 m) (1) XS6 18B4NAL2 M12 connector XS6 18B4ppM12 NC 0. general purpose Cylindrical. long case model Sensing distance Function Output (Sn) mm DF532016 1 Ø 12.100 0. non flush mountable Three-wire DC.020 XS6 18B4PBM12 Pre-cabled (L = 2 m) (1) XS6 18B4NBL2 M12 connector XS6 18B4NBM12 Connection Reference Weight kg 0.100 0.100 0. 3-wire c 12. increased range.145 825994 Accessories (2) Description Fixing clamps 8 XS6 12B4PBM12 Weight kg Ø 18.040 0.075 0.075 0.48 V.References Inductive proximity sensors OsiSense XS.145 0.020 0.020 0.205 0. (2) For further information.205 0. for a 10 m long cable replace L2 by L10.. no-load mA y 10 Delays Wiring schemes Connector 4 1 XS6 12B4pppp Hz 2500 XS6 18B4pppp Hz 1000 XS6 30B4pppp Hz 500 First-up ms y 10 Response ms y 0. e BK/4 (NO) BK/2 (NC) – BU/3 + BN/1 NPN 6 BK/4 (NO) BK/2 (NC) – BU/3 See connection on page 9/45.3 Ø 18.25…+ 70 Materials Case Nickel plated brass PPS Cable – Vibration resistance Conforming to IEC 60068-2-6 25 gn.Inductive proximity sensors Characteristics. setting-up.40…+ 85 Operating temperature °C . Setting-up Minimum mounting distances (mm) 3 Sn 7 Object to be detected e e Metal Metal e Side by side Ø 12 Face to face e u 48 Facing a metal object e u 84 e u 21 Ø 18 e u 72 e u 144 e u 36 Ø 30 e u 120 e u 264 e u 66 8 Dimensions Pre-cabled (mm) Connector (mm) XS6 a b a b c Ø 12 55 42 66 42 5 Ø 18 60 44 72 44 8 Ø 30 63 41 74 41 13 (1) b a c 9 (1) LED 10 3/41 .15 of effective sensing distance (Sr) Differential travel Conforming to IEC 60529 IP 65 and IP 67 Storage temperature °C .6 Ø 30 mm 0…17. general purpose Cylindrical. schemes. increased range. closed state V y2 Current consumption. y 0. double insulation i Sensing face M12 1 UL.6 Ø 30 Recovery ms y 0.. duration 11 ms Output state indication Yellow LED: 4 viewing ports at 90° Yellow LED: annular V c 12…48 with protection against reverse polarity Voltage limits (including ripple) V c 10…58 Switching capacity mA y 200 with overload and short-circuit protection Voltage drop.2 Ø 12. CSA. y 0. solid-state output Characteristics Sensor type XS6ppB4ppM12 Product certifications XS6ppB4ppL2 Connection Connector Operating zone Ø 12 Pre-cabled mm Degree of protection M12 – – Length: 2 m 0…5.34 mm2 Rated supply voltage Maximum switching frequency 2 IP 65 and IP 68.2 Ø 12. y 1.6 % 1.. y 0. dimensions OsiSense XS. non flush mountable Three-wire DC.7 Ø 18.4 Ø 30 Pre-cabled PNP 2 4 5 NPN + BN/1 PNP BU: Blue BN: Brown BK: Black 3 3 PvR 3 x 0. amplitude ± 2 mm (f = 10 to 55 Hz) Shock resistance Conforming to IEC 60068-2-27 50 gn.6 Ø 18 mm 0…9. .010 Ø 30 XSZ B130 0.060 Pre-cabled (L = 2 m) (1) XS6 18B4MBL2 0.120 1/2”-20UNF connector XS6 18B4MBU20 0.References Inductive proximity sensors OsiSense XS. non flush mountable Two-wire AC or DC 822109 1 Sensors.020 (1) For a 5 m long cable replace L2 by L5. Example: XS6 18B4MAL2 becomes XS6 18B4MAL5 with a 5 m long cable.5 22 XS6ppB4MpU20 Reference Weight kg Accessories (2) 825994 5 Connection NC 2 3 Function Description Fixing clamps XSZ B1pp For use with sensors Reference Ø 18 XSZ B118 0.060 523381 Sensing distance (Sn) mm Weight kg Function Connection NO Pre-cabled (L = 2 m) (1) XS6 30B4MAL2 0. threaded M30 x 1. 240 V. long case model Ø 18.120 1/2”-20UNF connector XS6 18B4MAU20 0. general purpose Cylindrical. increased range. for a 10 m long cable replace L2 by L10.145 NC 4 Reference Ø 30. 6 7 8 9 10 3/42 Weight kg ..205 1/2”-20UNF connector XS6 30B4MAU20 0. 2-wire z 24. threaded M18 x 1 Sensing distance (Sn) mm 12 XS6ppB4MpL2 NO Pre-cabled (L = 2 m) (1) XS6 18B4MAL2 0. see page 3/112.145 Pre-cabled (L = 2 m) (1) XS6 30B4MBL2 0. (2) For further information.205 1/2”-20UNF connector XS6 30B4MBU20 0. 6 Ø 30 mm 0. e Connection Connector Operating zone Ø 18 mm 0…9.17. Setting-up Minimum mounting distances (mm) 3 Sn 7 e e Metal Metal e Object to be detected Side by side Face to face Facing a metal object Ø 18 e u 72 e u 144 e u 36 Ø 30 e u 120 e u 264 e u 66 8 Dimensions (1) b c Pre-cabled (mm) Connector (mm) XS6 a b a b c Ø 18 60 44 72 44 8 Ø 30 63 41 74 41 13 9 a (1) LED 10 3/43 .6 % 1. Wiring schemes Connector Pre-cabled 1/2"-20UNF 1 2 3 2-wire a or c NO or NC output BU: Blue BN: Brown z: 2 t: 1 z: 3 6 BN/2 /1 BU/3 t: on connector models only See connection on page 9/45.25…+ 70 Case Nickel plated brass Sensing face PPS Cable – Vibration resistance Conforming to IEC 60068-2-6 25 gn.. y 2 XS6 30B4Mppp Recovery 2 IP 65 and IP 68.Inductive proximity sensors Characteristics. non flush mountable Two-wire AC or DC Characteristics Sensor type XS6ppB4MpU20 Product certifications XS6ppB4MpL2 1 UL. CSA. closed state V y 5.5 XS6 18B4Mppp. double insulation i 5 (1) It is essential to connect a 0. increased range..8 3 Yellow LED: annular 4 Maximum switching frequency XS6 18B4Mppp Hz a 25 or c 1000 XS6 30B4Mppp Hz a 25 or c 300 Delays First-up ms y 30 XS6 18B4Mppp and XS6 30B4Mppp Response ms y 0. dimensions OsiSense XS.4 A “quick-blow” fuse in series with the load.5 Residual current. setting-up..15 of effective sensing distance (Sr) Pre-cabled Differential travel Degree of protection Conforming to IEC 60529 – – Length: 2 m IP 65 and IP 67 Storage temperature Operating temperature Materials 1/2"-20UNF °C .40…+ 85 °C . schemes.34 mm2 Yellow LED: 4 viewing ports at 90° Rated supply voltage V a or c 24…240 (a 50/60 Hz) Voltage limits (including ripple) V a or c 20…264 Switching capacity mA a 5…300 or c 5…200 (1) Voltage drop. duration 11 ms Output state indication PvR 2 x 0. amplitude ± 2 mm (f = 10 to 55 Hz) Shock resistance Conforming to IEC 60068-2-27 50 gn.. open state mA y 0. general purpose Cylindrical.5 ms y 0. 15 m flying lead Pre-cabled (L = 2 m) (3) XS7 J1A1PBL2 Remote M8 connector XS7 J1A1PBL01M8 on 0.045  0. 8 x 22 x 8 mm format (1) (2) Three-wire c Sensing distance Function Output (Sn) mm 2.15 m flying lead Pre-cabled (L = 2 m) (3) XS7 J1A1NAL2 Remote M8 connector XS7 J1A1NAL01M8 on 0. 15 x 32 x 8 mm format (1) Three-wire c 521029 Sensing distance Function Output (Sn) mm 5 NO PNP 5 NPN NC 6 PNP NPN XS7 F1A1ppL2 Connection Reference Pre-cabled (L = 2 m) (3) XS7 F1A1PAL2 Remote M8 connector XS7 F1A1PAL01M8 on 0.065  0.065  0.040  0.15 m flying lead Flat.045  Remote M8 connector XS7 F1A1DAL01M8 on 0. (3) For a 5 m long cable replace L2 by L5.15 m flying lead Weight kg 0.040  Two-wire c Sensing distance Function Output (Sn) mm 2. solid-state output 501549_1 1 Flat.065  0.15 m flying lead Pre-cabled (L = 2 m) (3) XS7 F1A1PBL2 Remote M8 connector XS7 F1A1PBL01M8 on 0. general purpose.060  0.060  0.060  0.060  0.15 m flying lead Pre-cabled (L = 2 m) (3) XS7 J1A1DBL2 0.5 NO NC 4 XS7 J1A1ppL01M8 Connection Reference Weight kg Pre-cabled (L = 2 m) (3) XS7 J1A1DAL2 0.5 NO PNP NPN XS7 J1A1ppL2 2 521029 NC PNP NPN 3 Connection Reference Pre-cabled (L = 2 m) (3) XS7 J1A1PAL2 Remote M8 connector XS7 J1A1PAL01M8 on 0.15 m flying lead Pre-cabled (L = 2 m) (3) XS7 F1A1DBL2 0. flush mountable Two-wire DC Three-wire DC.035  Remote M8 connector XS7 J1A1DBL01M8 on 0.045  0.055  0.15 m flying lead Pre-cabled (L = 2 m) (3) XS7 F1A1NBL2 Remote M8 connector XS7 F1A1NBL01M8 on 0.050  0.References Inductive proximity sensors 2 OsiSense XS.040  0. standard range Flat format.15 m flying lead (1) For accessories.055  0. 8 9   Connection XS7 F1A1ppL01M8 10 3/44 .045  Remote M8 connector XS7 F1A1DBL01M8 on 0.15 m flying lead Pre-cabled (L = 2 m) (3) XS7 F1A1NAL2 Remote M8 connector XS7 F1A1NAL01M8 on 0.065  0.045  Two-wire c 521030 7 Sensing distance Function Output (Sn) mm 5 NO   NC Reference Weight kg Pre-cabled (L = 2 m) (3) XS7 F1A1DAL2 0.15 m flying lead Pre-cabled (L = 2 m) (3) XS7 J1A1NBL2 Remote M8 connector XS7 J1A1NBL01M8 on 0. (2) Sensors XS7 J include a fixing clamp with screw. Example: XS7 J1A1PAL2 becomes XS7 J1A1PAL5 with a 5 m long cable.035  Remote M8 connector XS7 J1A1DAL01M8 on 0.15 m flying lead Weight kg 0.045  0.040  0. see page 3/112.050  0. for a 10 m long cable replace L2 by L10. 15 of effective sensing distance (Sr) IP 67 (XS7 J).5. flush mountable Two-wire DC Three-wire DC.1 Two-wire: 0. amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn..+ 85 . duration 11 ms Yellow LED c 12…24 with protection against reverse polarity c 10…36 y 10 y 0.+ 70 PBT PvR 3 x 0.5 (2) Ø3.40…. standard range Flat format.5 100 with overload and short-circuit protection 1.5 (2) (1) LED (2) For CHC type screws 3/45 37..11 mm2 or 2 x 0.5 Ø3. CSA. open state 2-wire Switching capacity 3-wire 2-wire Voltage drop.100 with overload and short-circuit protection y2 y4 2 4 for XS7 J.6 2 XS7 J 15 9 16 8 Facing a metal object e ≥ 7.34 mm2) 25 gn. 5 XS7 F Pre-cabled PNP NO or NC BN/1 PNP BU: Blue BN: Brown BK: Black NPN NO or NC NO BK/4 BU/3 BU/3 2 3 4 5 2-wire NO BN/1 NPN BK/4 1 BN/3 +/- BU/4 -/+ 6 2-wire NC See connection on page 9/45. 5 for XS7 F Three-wire: 5 Two-wire: 10 XS7 J. 5 XS7 F Three-wire: 0.5 8 51 (1) 8 4 (1) 30 39.11 mm2 (XS7 F: 2 or 3 x 0.1 Two-wire: 1 XS7 J. IP 68 (XS7 F) . dimensions 2 OsiSense XS.5 e ≥ 15 22 XS7 F 32 Dimensions XS7 J XS7 F 9 4 = 40/ 5 10 . general purpose. setting-up. 5 XS7 F Three-wire: 0.Inductive proximity sensors Characteristics..25…. no-load 3-wire Residual current. BN/1 NC Setting-up 7 BU/3 Minimum mounting distances (mm) e e e 8 Side by side e≥1 e≥1 Face to face e≥6 e ≥ 12 12. closed state 3-wire 2-wire Maximum switching frequency 3-wire 2-wire Delays First-up V V mA mA mA mA V V kHz kHz ms ms ms ms ms ms Response Recovery Wiring schemes Connector M8 4 1 3 XS7 JpppppL01M8 XS7 FpppppL01M8 XS7 JppppppL2. solid-state output Characteristics Sensor type Product certifications Connection Operating zone Differential travel Degree of protection Storage temperature Operating temperature Materials Connector Pre-cabled XS7 J XS7 F mm mm % Conforming to IEC 60529 °C °C Case Cable Conforming to IEC 60068-2-6 Conforming to IEC 60068-2-27 Vibration resistance Shock resistance Output state indication Rated supply voltage Voltage limits (including ripple) Current consumption. schemes. e Remote M8 connector on 0.15 m flying lead – – Length: 2 m 0…2 0…4 1.5 XS7 J.. XS7 FppppppL2 e UL. 060 0.040 PNP NPN DF564231 NC XS7 p1A1pL0pM12 XS7 E1A1ppM8 PNP NPN Pre-cabled (L = 2 m) (4) M8 connector Remote M12 connector Pre-cabled (L = 2 m) (4) M8 connector Remote M12 connector Pre-cabled (L = 2 m) (4) M8 connector Remote M12 connector Pre-cabled (L = 2 m) (4) M8 connector Remote M12 connector Two-wire c 10 DF564234 DF564233 Weight kg XS7 E1A1PAL2 XS7 E1A1PAM8 XS7 E1A1PAL01M12 XS7 E1A1NAL2 XS7 E1A1NAM8 XS7 E1A1NAL01M12 XS7 E1A1PBL2 XS7 E1A1PBM8 XS7 E1A1PBL01M12 XS7 E1A1NBL2 XS7 E1A1NBM8 XS7 E1A1NBL01M12 NO XS7 E1A1ppL2 3 Reference Three-wire c 10 2 Connection 4 NO Flat.060 0.290 NO terminals 1 and 4 (2) M12 connector XS7 D1A1CAM12 (5) 0. dist.075 0. 40 x 40 x 15 mm format (1) Three-wire c XS7 C1A1ppM8 NO PNP NPN 562089 NC DF564235 5 15 XS7 C1A1ppL2 6 PNP NPN Pre-cabled (L = 2 m) (4) M8 connector Remote M12 connector Pre-cabled (L = 2 m) (4) M8 connector Remote M12 connector Pre-cabled (L = 2 m) (4) M8 connector Remote M12 connector Pre-cabled (L = 2 m) (4) M8 connector Remote M12 connector XS7 C1A1PAL2 XS7 C1A1PAM8 XS7 C1A1PAL01M12 XS7 C1A1NAL2 XS7 C1A1NAM8 XS7 C1A1NAL01M12 XS7 C1A1PBL2 XS7 C1A1PBM8 XS7 C1A1PBL01M12 XS7 C1A1NBL2 XS7 C1A1NBM8 XS7 C1A1NBL01M12 0.090 0.References 2 Inductive proximity sensors 2 OsiSense XS.340 0.040 0.090 0.060 XS7 C1A1DAL2 XS7 C1A1DAM8 XS7 C1A1DAL01M12 XS7 C1A1CAL01M12 XS7 C1A1CAL08M12 XS7 C1A1DBL2 XS7 C1A1DBM8 XS7 C1A1DBL01M12 0. (3) Remote connector on 0.040 0. Example: XS7 D1A1PAL2 becomes XS7 D1A1PAL2DIN. (5) For clipping onto 35 mm omega rail or 80 x 80 x 40 mm format.040 0.090 0.060 0. see page 3/112.060 0.060 0.060 0. Func(Sn) mm tion Output Flat.040 0. flush mountable Two-wire DC Three-wire DC.340 0.060 0.070 0.340 M12 connector XS7 D1A1DBM12 (5) 0. (2) The NO output is connected to terminals 1 and 4 of the M12 connector.095 0.040 0.065 0.095 0.290 Two-wire c 15 7 XS7 D1A1ppM12 Pre-cabled (L = 2 m) (4) M8 connector Remote M12 connector NO terminals 1 and 4 (2) Remote M12 connector Remote M12 connector (3) NC Pre-cabled (L = 2 m) (4) M8 connector Remote M12 connector Flat.070 0.040 0.075 0.040 0. solid-state output DF564232 DF564230 1 Sens.075 0. 3/46 Pre-cabled (L = 2 m) (4) XS7 D1A1DAL2 (5) 0.8 m flying lead.060 0.060 0.340 0.290 0. standard range Flat format. 80 x 80 x 26 mm format DF564236 8 DF564237 XS7 D1A1ppL2 NO (1) Three-wire c 40 NO PNP NPN NC 9 PNP NPN Pre-cabled (L = 2 m) (4) M12 connector Pre-cabled (L = 2 m) (4) M12 connector Pre-cabled (L = 2 m) (4) M12 connector Pre-cabled (L = 2 m) (4) M12 connector Two-wire c 40 10 XS7 D1A1ppM12DIN XS7 D1A1ppL2DIN (1) For accessories.290 NC Pre-cabled (L = 2 m) (4) XS7 D1A1DBL2 (5) 0.040 0.290 0.075 0.290 (4) For a 5 m long cable replace L2 by L5.060 0.040 0.095 0.060 XS7 D1A1PAL2 (5) XS7 D1A1PAM12 (5) XS7 D1A1NAL2 (5) XS7 D1A1NAM12 (5) XS7 D1A1PBL2 (5) XS7 D1A1PBM12 (5) XS7 D1A1NBL2 (5) XS7 D1A1NBM12 (5) 0.075 0. Example: S7 J1A1PAL2 becomes XS7 J1A1PAL5 with a 5 m long cable. general purpose. 26 x 26 x 13 mm format (1) 0.060 0. NO .040 Pre-cabled (L = 2 m) (4) XS7 E1A1DAL2 M8 connector XS7 E1A1DAM8 Remote M12 connector XS7 E1A1DAL01M12 NO terminals 1 and 4 (2) Remote M12 connector XS7 E1A1CAL01M12 Remote M12 connector (3) XS7 E1A1CAL08M12 NC Pre-cabled (L = 2 m) (4) XS7 E1A1DBL2 M8 connector XS7 E1A1DBM8 Remote M12 connector XS7 E1A1DBL01M12 0.095 0.340 0. add DIN to the end of the reference. for a 10 m long cable replace L2 by L10.290 0.040 0.340 M12 connector XS7 D1A1DAM12 (5) 0. 1 3/47 10 .5 4.5 5. XS7 EpppppM8.5 5.5. XS7 CpppppL01M12 XS7 CpppppL2.5 y 100 with overload and short-circuit protection 1.25…. 35 XS7 D 0. 10 XS7 D 6 XS7 E. schemes. 5 XS7 D 0.100 with overload and short-circuit protection y2 y4 1 100 10 XS7 E and XS7 C.40…. standard range 2 Flat format.. 5 XS7 C. NO and NC outputs on terminal 4 XS7 C/D C D 3 BN/1 NC BN/1 2 (1) (1) B e XS7 C/D/E XS7 E 4 NO – BU/3 BN/3 2-wire NC/M12 or M8 2-wire NO/M12 XS7 ppppCAppp + BN/1 NPN Setting-up NO – BU/3 2 2-wire NO/M12 or M8 1 e e 9 E B eu XS7 E 30 XS7 C 45 F (2) XS7 D 120 Sensor XS7 E XS7 C XS7 D XS7 DppDIN A (cable) 14 14 23 23 A Facing a metal object F (2) E B E eu B Face to face A (connector) 11 11 18 18 B 26 40 80 80 (1) LED (2) For CHC type screws C 13 15 26 40 D 8.+ 85 . closed state 3-wire 2-wire Maximum switching frequency XS7 E. solid-state output Characteristics Sensor type Product certifications Connection Connector Pre-cabled XS7 E XS7 C XS7 D Operating zone Differential travel Degree of protection Storage temperature Operating temperature Materials Conforming to IEC 60529 °C °C Case Cable Conforming to IEC 60068-2-6 Conforming to IEC 60068-2-27 Vibration resistance Shock resistance Output state indication Rated supply voltage Voltage limits (including ripple) Current consumption. open state 2-wire Switching capacity 3-wire 2-wire Voltage drop.3 XS7 E and XS7 D. 10 XS7 D + BN/1 PNP BK/4 (NO) BK/2 (NC) 3 NPN/M12 or M8 See connection on page 9/45. amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn. flush mountable Two-wire DC Three-wire DC. general purpose.15 m flying lead – M12 on XS7 DpppppM12 for XS7 pppppL01M12 – – Length: 2 m 0…8 0…12 0…32 1. XS7 CpppppM8.15 of effective sensing distance (Sr) IP 67. XS7 EpppppL2. XS7 C XS7 D Delays First-up Response Recovery Wiring schemes Connector M12 4 1 V V mA mA mA mA V V kHz Hz ms ms ms ms ms ms PNP/M12 or M8 BU: Blue BN: Brown BK: Black 4 1 3-wire 2-wire 3-wire 2-wire 3-wire 2-wire Pre-cabled M8 3 mm mm mm % XS7 EpppppL01M12. 30 XS7 D 5 XS7 E and XS7 D.Inductive proximity sensors Characteristics. setting-up..8 16 30 E 20 33 65 65 F 3. double insulation i (except for M8 connector: IP 67) IP 68.7 XS7 E and XS7 D. BK/4 (NO) BK/2 (NC) Dimensions Minimum mounting distances (mm) Side by side eu XS7 C 5 XS7 D 40 XS7 E 72 XS7 C 110 XS7 D 300 +/- BU/4 -/+ +/- BU/4 -/+ 5 6 BU/2 (M12) BU/3 (M8) 7 8 XS7 E B E 4 For M8 connector. XS7 DpppppM12 XS7 DpppppL2 UL. 10 XS7 D 2 XS7 E and XS7 C.. no-load 3-wire Residual current. CSA.. duration 11 ms Yellow LED 12…24 with protection against reverse polarity 10…36 y 10 y 0.+ 70 PBT – PvR 3 x 0.8 9.34 mm2 or 2 x 0. i . e M8 except M12 on 0.34 mm2 25 gn. dimensions 2 OsiSense XS. open state 0…200 mA 1.220 0. clamping capacity: 2 or 4 x 1. e Degree of protection conforming to IEC 60529 Operating temperature Connection IP 67 Operating zone 0…12 mm 0…16 mm 0…32 mm 0…16 mm Repeat accuracy Differential travel Status indication Rated supply voltage ≤ 3% of effective sensing distance (Sr) 3…20% of effective sensing distance (Sr) Yellow LED Yellow LED Green LED – c 12…48 V with protection against reverse polarity Voltage limits (including ripple) c 10…58 V Current consumption.220 Product certifications UL.5…100 mA Residual current.5…100 mA With overload and short-circuit protection – y 0.220 0. For suitable 13P cable gland (XSZ PE13).7 ms y 5 ms < 1 ms < 1 ms y 5 ms y 2 ms y 7 ms First-up Response Recovery – (1) Cable gland not included with sensor. plug-in 5 position turret head DC supply Flush mountable in metal Non flush mountable in metal 1 2 Nominal sensing distance (Sn) 3 15 mm Increased range 20 mm 15 mm 20 mm Increased range 40 mm 20 mm PNP NO + NC XS7 C40PC440 XS7 C40PC449 – XS8 C40PC440 XS8 C40PC449 – NPN NO + NC XS7 C40NC440 XS7 C40NC449 – XS8 C40NC440 XS8 C40NC449 – NO – – XS7 C40DA210 – – XS8 C40DA210 NO or NC programmable – – XS7 C40DP210 – – XS8 C40DP210 Weight (kg) 0.3 ms y 0. characteristics Sensor 2 OsiSense XS. CSA.3 ms y 0.5 mm2 (1) 0…16 mm 0…12 mm Yellow LED Green LED Yellow LED – y 10 mA – 0…200 mA 1. see page 3/112.25…+ 70 °C Screw terminals.220 0.5 mA – y 0.5 mA Voltage drop. 9 10 3/48 2 . general purpose Plastic case. no-load y 10 mA Switching capacity References 4-wire c (complementary outputs) 2-wire c (non polarised) 4 5 6 7 8 Characteristics Output Supply on . closed state y2V y4V y2V y4V Maximum switching frequency 1000 Hz 1500 Hz 1000 Hz 500 Hz 800 Hz Delays y 5 ms y 0.220 0. 40 x 40 x 117 format.220 0.7 ms y 5 ms y 2 ms y 5 ms y 5 ms y 0.Inductive proximity sensors References. Inductive proximity sensors Dimensions. Setting-up (1) Output LED. NO or NC output depending on position of link 5 6 +/– –/+ NO NO NC NC 4-wire c . (2) 1 tapped entry for 13P cable gland.2 N. setting-up.3 x 7.m Wiring schemes 2-wire c (non polarised). schemes 2 OsiSense XS. (3) 2 elongated holes Ø 5. (2) Supply LED. (3) 1 tapped entry for 13P cable gland.3 x 7. XS8 C40pC44p 1 40 40 40 20 20 40 2 (2) 60 (1) (1) 60 117 117 25 (4) 25 (3) 3 (3) (2) = 16 24 30 30 = 16 = 24 40 = 40 4 41 41 (1) Output LED. NO + NC output 1 PNP 3 + 4 (NO) NPN 2 (NC) – 3 8 + 1 4 (NO) 2 (NC) – 9 10 3/49 . plug-in 5 position turret head DC supply XS7 C40pC44p. (4) 2 elongated holes Ø 5. 40 x 40 x 117 format. XS8 C40Dp210 Plastic case. 5 Minimum mounting distances (mm) e e Sensors flush mountable in metal Sensors non flush mountable in metal XS7  XS7 increased range model XS8  XS8 increased range model Side by side e u 40 e u 80 e u 80 e u 160 e Face to face e u 120 e u 240 e u 160 e u 320 6 Facing a metal object e u 45 e u 60 e u 60 e u 120 7 Tightening torque of cover fixing screws and clamp screws: < 1. general purpose 2 Dimensions XS7 C40Dp210. 220 Characteristics 4 5 6 7 Product certifications UL. no-load – Switching capacity Residual current. characteristics Sensor Inductive proximity sensors 2 OsiSense XS. open state 5…500 mA (2) (2 A inrush) y 1. see page 3/112. c 50 Hz y 120 ms y 30 ms y 20 ms (1) Cable gland not included with sensor. e Degree of protection conforming to IEC 60529 Operating temperature Connection IP 67 .5 mA a 5…300 mA or c 5…200 mA (2) 0. (2) These sensors do not incorporate overload or short-circuit protection and therefore. c 50 Hz 25 Hz a 25 Hz. CSA.220 0. closed state y 5. 50/60 Hz or c 24…210 V a or c 20…264 V a 5…300 mA or c 5…200 mA (2) 0.8 mA on 24 V 1. 50/60 Hz or c 24…210 V a or c 20…264 V a 24…240 V.25…+ 70 °C Screw terminals.5 V Maximum switching frequency 25 Hz Delays 8 First-up Response Recovery 0…16 mm a 24…240 V. 50/60 Hz Voltage limits (including ripple) a 20…264 V Current consumption.. see page 3/112. clamping capacity 2 x 1.References. 40 x 40 x 117 format.5 mA on 120 V 5…500 mA (2) (2 A inrush) y 1..220 0. general purpose Plastic case. 50/60 Hz a 20…264 V a 24…240 V.5 mA Voltage drop. For suitable 13P cable gland (XSZ PE13).20% of effective sensing distance (Sr) Yellow LED Rated supply voltage with protection against reverse polarity a 24…240 V.220 0. 9 10 3/50 2 .5 mA on 120 V a 25 Hz.5 mm2 (1) Operating zone 0…12 mm Repeat accuracy Differential travel Output state indication ≤ 3% of effective sensing distance (Sr) 3. it is essential to connect a “quick-blow” fuse in series with the load.8 mA on 24 V 1. plug-in 5 position turret head AC or DC supply Flush mountable in metal Non flush mountable in metal AC 15 mm AC/DC AC 20 mm AC/DC 1 2 Nominal sensing distance (Sn) 3 References 2-wire a NO or NC programmable XS7 C40FP260 – XS8 C40FP260 – 2-wire a or c universal model Weight (kg) NO or NC programmable – XS7 C40MP230 – XS8 C40MP230 0. 3 x 7. setting-up. NO or NC output depending on position of link 5 5 6 6 7 8 NO NO NC NC 9 10 3/51 . Setting-up Minimum mounting distances (mm) 5 e e XS7 flush mountable XS8 non flush mountable Side by side e u 40 e u 80 Face to face e u 120 e u 160 e 6 Facing a metal object e u 45 e u 60 Tightening torque of cover fixing screws and clamp screws: < 1. general purpose 2 Plastic case. schemes 2 OsiSense XS. XS8 C40MP230 1 40 20 40 2 117 25 (3) 60 (1) 3 (2) 30 = 16 24 = 40 4 41 (1) Output LED. NO or NC output depending on position of link 2-wire a or c programmable. plug-in 5 position turret head AC or DC supply Dimensions XS7 C40FP260. (3) 2 elongated holes Ø 5.m Wiring schemes 2-wire a programmable.Inductive proximity sensors Dimensions.2 N. XS7 C40MP230. 40 x 40 x 117 format. (2) 1 tapped entry for 13P cable gland. XS8 C40FP260. 090 0.390 1/2"-20UNF connector XS8 D1A1MBU20 (5) 0. 80 x 80 x 26 mm format (2) XS8 D1A1ppM12 Sensing Function Output Connection distance (Sn) mm Reference Three-wire c with overload and short-circuit protection XS8 D1A1ppL2 60 NO PNP NPN DF564222 NC DF564221 8 NO 9 PNP NPN Pre-cabled (L = 2 m) (3) M12 connector Pre-cabled (L = 2 m) (3) M12 connector Pre-cabled (L = 2 m) (3) M12 connector Pre-cabled (L = 2 m) (3) M12 connector XS8 D1A1PAL2 (5) XS8 D1A1PAM12 (5) XS8 D1A1NAL2 (5) XS8 D1A1NAM12 (5) XS8 D1A1PBL2 (5) XS8 D1A1PBM12 (5) XS8 D1A1NBL2 (5) XS8 D1A1NBM12 (5) Weight kg 0.040 0.340 Two-wire a or c unprotected (4) 60 10 XS8 D1A1ppM12DIN XS8 D1A1ppL2DIN 3/52 Pre-cabled (L = 2 m) (3) XS8 D1A1MAL2 (5) 0.040 0. for a 10 m long cable replace L2 by L10.340 (1) For further information on flush or non flush mountable sensors using teach mode. general purpose with increased range Flat. NO – .075 0.090 0.040 0.340 0.060 0. solid-state output Sensing Function Output Connection distance (Sn) mm Three-wire c with overload and short-circuit protection 15 NO NC XS8 p1A1ppL01M12 XS8 p1A1ppL01U20 PNP NPN XS8 E1A1ppM8 Pre-cabled (L = 2 m) (3) M8 connector Remote M12 connector Pre-cabled (L = 2 m) (3) M8 connector Remote M12 connector Pre-cabled (L = 2 m) (3) M8 connector Remote M12 connector Pre-cabled (L = 2 m) (3) M8 connector Remote M12 connector DF564228 15 NO – NC – Pre-cabled (L = 2 m) (3) Remote 1/2"-20UNF connector Pre-cabled (L = 2 m) (3) Remote 1/2"-20UNF connector Flat.4 A “quick-blow” fuse in series with the load.060 0.040 0. (5) For clipping onto 35 mm omega rail or 80 x 80 x 40 mm format.060 0.040 0.095 0. see page 3/20.040 0.075 0.340 NC – Pre-cabled (L = 2 m) (3) XS8 D1A1MBL2 (5) 0. Example: XS8 D1A1PAL2 DIN.040 Sensing Function Output Connection distance (Sn) mm Reference Three-wire c with overload and short-circuit protection 25 NO XS8 C1A1ppM8 XS8 C1A1ppL2 DF564221 NC 6 PNP NPN DF564229 5 Weight Two-wire a or c unprotected (4) DF564227 3 PNP NPN XS8 E1A1ppL2 DF564226 2 Reference PNP NPN Pre-cabled (L = 2 m) (3) M8 connector Remote M12 connector Pre-cabled (L = 2 m) (3) M8 connector Remote M12 connector Pre-cabled (L = 2 m) (3) M8 connector Remote M12 connector Pre-cabled (L = 2 m) (3) M8 connector Remote M12 connector Weight kg XS8 C1A1PAL2 XS8 C1A1PAM8 XS8 C1A1PAL01M12 XS8 C1A1NAL2 XS8 C1A1NAM8 XS8 C1A1NAL01M12 XS8 C1A1PBL2 XS8 C1A1PBM8 XS8 C1A1PBL01M12 XS8 C1A1NBL2 XS8 C1A1NBM8 XS8 C1A1NBL01M12 0. see page 3/112. 26 x 26 x 13 mm format (2) DF564225 1 DF564224 Flat.040 0.060 Two-wire a or c unprotected (4) 25 7 – NC – Pre-cabled (L = 2 m) (3) Remote 1/2"-20UNF connector Pre-cabled (L = 2 m) (3) Remote 1/2"-20UNF connector Flat.070 0. 40 x 40 x 15 mm format (2) 4 kg XS8 E1A1PAL2 XS8 E1A1PAM8 XS8 E1A1PAL01M12 XS8 E1A1NAL2 XS8 E1A1NAM8 XS8 E1A1NAL01M12 XS8 E1A1PBL2 XS8 E1A1PBM8 XS8 E1A1PBL01M12 XS8 E1A1NBL2 XS8 E1A1NBM8 XS8 E1A1NBL01M12 0.390 1/2"-20UNF connector XS8 D1A1MAU20 (5) 0.390 0.095 0.060 0.070 0.040 0.095 0.095 0.390 0. (2) For accessories.340 0. add DIN to the end of the reference. (4) It is essential to connect a 0.075 0.060 0. flush mountable/non flush mountable + teach mode (1) Two-wire AC or DC Three-wire DC.060 0.060 0.060 XS8 C1A1MAL2 XS8 C1A1MAL01U20 XS8 C1A1MBL2 XS8 C1A1MBL01U20 0.390 0.340 0. (3) For a 5 m long cable replace L2 by L5.390 0.040 XS8 E1A1MAL2 XS8 E1A1MAL01U20 XS8 E1A1MBL2 XS8 E1A1MBL01U20 0.060 0.References 2 Inductive proximity sensors 2 OsiSense XS.075 0. 8 3/53 10 . schemes. XS8 CpppppL01M12. 5…300 a XS8 C and XS8 D. with overload and short-circuit protection 5…200 z XS8 E. solid-state output Characteristics Sensor type Product certifications Connection Connector Pre-cabled XS8 E Nominal sensing dist. XS8 CpppppM8.8 65 5. setting-up.8 9. double insulation i (except M8 connector: IP 67) IP 68.5 2000 XS8 E.5 8.. y 200 XS8 C and XS8 D. dimensions 2 OsiSense XS.5 y 100 XS8 E. 5…200 c XS8 C and XS8 D y2 y 5. i . XS8 EpppppL01U20.5 37.25….8 6.5 37. XS8 EpppppM8. Sn XS8 D Fine adjustment zone Sensing distance and adjustment zone Differential travel Degree of protection Storage temperature Operating temperature Materials Conforming to IEC 60529 °C °C Wiring schemes Connector M12 4 1 Pre-cabled 1/2"-20UNF 1 3 3 2 2 1 BU: Blue BN: Brown BK: Black See connection on page 9/45.. flush mountable/non flush mountable + teach mode (1) Two-wire AC or DC Three-wire DC. duration 11 ms Yellow LED Green LED 12…24 with protection against reverse polarity a or c 24…240 (a 50/60 Hz) 10…36 a or c 20…264 y 10 y 1.34 mm2 z 25 gn. XS8 EpppppL2.+85 . Sn Fine adjustment zone Nominal sensing dist. closed state 3-wire 2-wire Maximum switching frequency Delays First-up Response Recovery M8 4 mm mm mm mm mm mm % XS8 EpppppL01M12.6 33 4. CSA. amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn.3 y 0. Sn Fine adjustment zone XS8 C Nominal sensing dist.+70 PBT – PvR 3 x 0. y 10 XS8 E and XS8 C. e M8 except Remote on 0. 3 Setting-up Minimum mounting distances (mm) Side by side PNP/M12 or M8 NPN/M12 or M8 + BN/1 PNP BK/4 (NO) BK/2 (NC) – BU/3 – Facing a metal object Dimensions XS8 C/D/E XS8 C/D XS8 E e 4 5 6 8 (1) B E C D (1) F(3) E E eu XS8 E XS8 C XS8 D Flush 80 120 400 mounted Not flush 300 250 not mounted recommended eu 3 For M8 connector.34 mm2 c and PvR 2 x 0.40….15 m flying lead – XS8 ppppppM12: M12 XS8 ppppppL01M12: M12 XS8 ppppppU20: 1/2"-20UNF XS8 ppppppL01U20: 1/2"-20UNF – – Length: 2 m 0…15 not flush mounted / 0…10 flush mounted 5…15 not flush mounted / 5…10 flush mounted 0…25 not flush mounted / 0…15 flush mounted 8…25 not flush mounted / 8…15 flush mounted 0…60 not flush mounted / 0…40 flush mounted 0…60 not flush mounted / 20…40 flush mounted 1. y 6 XS8 D A (connector) 11 11 18 18 H B 26 40 80 80 C 13 15 26 40 D 8.5 8. XS8 CpppppL2. NO and NC outputs on terminal 4 B F(3) G e BU/3 (2) XS8 E XS8 C XS8 D 10 15 40 Sensor XS8 E XS8 C XS8 D XS8 DppDIN A (cable) 14 14 23 23 9 A Face to face 2 7 BN/2 BK/4 (NO) BK/2 (NC) BU/3 1 2-wire 1/2"-20UNF + BN/1 NPN B e eu XS8 E XS8 C XS8 D Flush 40 60 200 mounted Not flush 150 125 600 mounted V V V V mA mA mA mA V V Hz ms ms ms B Case Cable Vibration resistance Conforming to IEC 60068-2-6 Shock resistance Conforming to IEC 60068-2-27 Indicators Output state Supply on and teach mode Rated supply 3-wire voltage 2-wire Voltage limits 3-wire (including ripple) 2-wire Current consumption.8 XS8 E and XS8 C. 150 XS8 D y 10 XS8 E. XS8 DpppppM12. XS8 C and XS8 D (3-wire).6 65 5.3 13. 1000 XS8 C. no-load 3-wire Residual current. XS8 DpppppL2 XS8 DpppppU20 XS8 CpppppL01U20 UL. open state 2-wire Switching capacity 3-wire 2-wire Voltage drop.5 6. general purpose with increased range 2 Flat.Inductive proximity sensors Characteristics.8 16 30 (1) LED (2) Teach mode button (3) For CHC type screws E F G H 20 3. y 15 XS8 D (2-wire) y 0.15 of effective sensing distance (Sr) IP 67.1 22. 5 Flush mountable 6 801225 10 Non flush mountable 15 7 XS2 Mpppp250K Accessories (2) 825994 8 Description mm Fixing clamps XSZ B1pp 9 10 3/54 Reference Weight kg Ø 12 XSZ B112 0.025 NC Pre-cabled (L = 2 m) (1) XS2 M12MB250 0. short-circuit protection Sensing distance (Sn) mm 1 Connection Reference Weight kg Ø 12.060 NC Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS1 M18MB250 XS1 M18MB250K 0.205 0. cylindrical.075 0.060 NO Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS1 M30MA250 XS1 M30MA250K 0.205 0. see page 3/112. threaded M30 x 1.060 NO Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS2 M18MA250 XS2 M18MA250K 0. flush mountable and non flush mountable Two-wire AC or DC.060 NC Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS2 M18MB250 XS2 M18MB250K 0.006 0.145 Non flush mountable 4 3 Function Ø 18.145 NO Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS2 M30MA250 XS2 M30MA250K 0.025 NO Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS2 M12MA250 XS2 M12MA250K 0.075 NO Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS1 M18MA250 XS1 M18MA250K 0. threaded M12 x 1 Flush mountable 822102 2 2 XS1 Mpppp250 DF532016 NO Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS1 M12MA250 XS1 M12MA250K 0. threaded M18 x 1 Flush mountable 5 XS2 Mpppp250 4 Non flush mountable 825982 8 5 XS1 Mpppp250K Ø 30.145 NC Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS1 M30MB250 XS1 M30MB250K 0.025 NC Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS1 M12MB250 XS1 M12MB250K 0.205 0.120 0.205 0.References Inductive proximity sensors 2 OsiSense XS.145 NC Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS2 M30MB250 XS2 M30MB250K 0. general purpose Multivoltage sensor.010 Ø 18 XSZ B118 0. .075 0. for a 10 m long cable add L2 to the reference.120 0. Example: XS1 M18MA250 becomes XS1 M18MA250L1 with a 5 m long cable. (2) For further information.020 Ø 30 XSZ B130 (1) For a 5 m long cable add L1 to the reference.120 0.075 0.120 0. 25…+ 70 Nickel plated brass – 25 gn. schemes. Minimum mounting distances (mm) Side by side e Dimensions Face to face eu4 e u 16 e u 10 e u 16 e u 20 e u 60 e e u 24 e u 48 e u 60 e u 96 e u 120 e u 180 Facing a metal object eu6 e u 12 e e u 15 e u 24 e u 30 e u 45 Flush mountable in metal Sensor c Ø 12 Ø 18 Ø 30 Pre-cabled a b 55 47 60 51 60 51 Connector a 66 72 72 Mounted in a metal support d u 12 h u 0 d d u 36 h u 8 d u 18 h u 0 d u 54 h u 16 d u 30 h u 0 d u 90 h u 30 h Sensor Ø 12 flush mountable Ø 12 non flush mountable Ø 18 flush mountable Ø 18 non flush mountable Ø 30 flush mountable Ø 30 non flush mountable a IP 68. y 10 for Ø 30 non flush mountable 3 Setting-up 1 Pre-cabled. y 2 for Ø 18 and Ø 30 y 0. flush mountable and non flush mountable Two-wire AC or DC. short-circuit protection Characteristics Sensor type Product certifications Connection Operating zone Ø 12 flush mountable Ø 12 non flush mountable Ø 18 flush mountable Ø 18 non flush mountable Ø 30 flush mountable Ø 30 non flush mountable Differential travel Degree of protection Storage temperature Operating temperature Materials mm mm mm mm mm mm % Conforming to IEC 60529 °C °C Case Cable Conforming to IEC 60068-2-6 Conforming to IEC 60068-2-27 Output state Supply on Vibration resistance Shock resistance Indicators Yellow LED.15 of effective sensing distance (Sr) IP 67 ..Inductive proximity sensors Characteristics.5 a 25 or c 4000 a 25 or c 2000 a 25 or c 2000 a 25 or c 1000 y 70 y 0.6 42 72 44 74. dimensions 2 OsiSense XS. e 1/2"-20UNF connector 0…1.6 0…3. y 4 for Ø 18. double insulation 2-wire a or c /1 b 2 a 24…240 (50/60 Hz) or c 24…210 a or c 20…264 a 5…300 or c 5…200 (except Ø 12: a or c 5…200) with overload and short-circuit protection y 5. amplitude ± 2 mm (f = 10 to 55 Hz) 9 Non flush mountable in metal b 48 51 51 Pre-cabled a b 54. duration 11 ms Rated supply voltage Voltage limits (including ripple) Switching capacity 2 XSpMppMp250K UL.40…+ 85 .7 41 8 c 5 8 13 3/55 10 . general purpose Multivoltage sensor. 7 BU/3 t : on connector models only. setting-up.4 0…8 0…12 1. no-load Residual current. 4 viewing ports at 90° – V V mA Voltage drop. length: 2 m NO or NC output BU: Blue BN: Brown 1 XSpMppMp250 50 gn. CSA.34 mm2 Yellow LED Green LED (only on Ø 18 and Ø 30) 4 5 6 BN/2 See connection on page 9/45.5 – y 1. open state Maximum switching frequency V mA mA Ø 12 Hz Hz Ø 18 Ø 30 flush mountable Hz Ø 30 non flush mountable Hz First-up ms Response ms Recovery ms Delays Wiring schemes 1/2"-20UNF connector Pre-cabled 3 PvR 2 x 0. y 5 for Ø 30 flush mountable.6 42 60 44 62.2 for Ø 12..2 for Ø 12. closed state Current consumption.2 0…4 0…6. cylindrical.6 41 Connector a b 65. 100 XS2 N30PC410 XS2 N30PC410D XS2 N30NC410 XS2 N30NC410D 0. (2) For a sensor with a plastic case.040 0. non flush mountable (2) 15 NO + NC PNP NPN XS2 NpppC410D 9 Accessories (3) Description mm Fixing clamps 825994 10 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XSZ B1pp 3/56 Reference Weight kg Ø 8 XSZ B108 0. see page 3/112.025 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XS1 N12PC410 XS1 N12PC410D XS1 N12NC410 XS1 N12NC410D 0. threaded M30 x 1.040 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XS2 N18PC410 XS2 N18PC410D XS2 N18NC410 XS2 N18NC410D 0.160 0. flush mountable 5 PNP NPN 801232 Brass case.100 0. general purpose Cylindrical. replace 2N by 4P in the reference.040 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XS1 N30PC410 XS1 N30PC410D XS1 N30NC410 XS1 N30NC410D 0. for a 10 m long cable add L2 to the reference.035 0.100 0.020 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XS1 N18PC410 XS1 N18PC410D XS1 N18NC410 XS1 N18NC410D 0.100 Pre-cabled (L = 2 m) M12 connector Pre-cabled (L = 2 m) M12 connector Stainless steel case.100 0.160 0. non flush mountable 2.020 Pre-cabled (L = 2 m) (1) M12 connector Pre-cabled (L = 2 m) (1) M12 connector XS2 N12PC410 XS2 N12PC410D XS2 N12NC410 XS2 N12NC410D 0.5 plain 801120 Stainless steel case.070 0.5 NO + NC PNP NPN Pre-cabled (L = 2 m) (1) XS1 L06PC410 Pre-cabled (L = 2 m) (1) XS1 L06NC410 0.006 Ø 12 XSZ B112 0. non flush mountable (2) 8 NO + NC PNP NPN 7 XS1 NpppC410D Ø 30.025 Ø 8. threaded M8 x 1 2 Stainless steel case.100 0.070 0.010 Ø 18 XSZ B118 0.020 0. flush mountable 1.100 0. Example: XS1 N12PC410 becomes XS1 N12PC410L1 with a 5 m long cable. flush mountable 2 NO + NC PNP NPN Brass case.5 NO + NC PNP NPN XS1 M08PC410 XS1 M08PC410D XS1 M08NC410 XS1 M08NC410D 0. (3) For further information.References 2 Inductive proximity sensors 2 OsiSense XS.5 Brass case. Example: XS2 N12PC410 becomes XS4 P12PC410 with a plastic case. non flush mountable (2) 801233 5 4 NO + NC PNP NPN Ø 18. threaded M12 x 1 XS1 ppppC410 4 Brass case. flush mountable 10 NO + NC PNP NPN DF532015 8 NO + NC Brass case.100 0.035 0.025 0.020 Ø 30 XSZ B130 (1) For a 5 m long cable add L1 to the reference.040 0. flush mountable XS1 L06pC410 1.160 0. . metal and plastic. solid-state NO + NC output Sensing distance (Sn) mm 1 Function Output Reference Weight kg Ø 6.070 0.070 0.025 0.025 Pre-cabled (L = 2 m) M12 connector Pre-cabled (L = 2 m) M12 connector XS2 M08PC410 XS2 M08PC410D XS2 M08NC410 XS2 M08NC410D 0.5 801231 3 Connection NO + NC PNP NPN Ø 12. threaded M18 x 1 XS2 ppppC410 6 Brass case.006 0. flush mountable and non flush mountable Four-wire DC.035 0.035 0.160 0. non flush mountable.025 0.020 0. 6 20 48 29 52.5 26 40. schemes.5 20 33.35 for Ø 18.5 19 40. no-load Maximum switching frequency Delays Wiring schemes M12 connector Pre-cabled 2 V V Yellow LED.1 for Ø 8 and Ø 12. Ø 8 and Ø 12 Ø 18 Ø 30 First-up Response Recovery BU: Blue BN: Brown BK: Black WH: White 3 XSp ppppC410 50 gn.6 0…3. length: 2 m c Ø 6.6 32 – – Connector a b – – 61 42 48 29 – – 48.5 and Ø 8: IP 67) Minimum mounting distances (mm) Sensor Ø 6.34 mm2 except Ø 6. CSA. for XS1 L06.6 25 33 25 36.2 0…2 0…1.5 metal Ø 8 metal Ø 12 metal Ø 12 plastic Ø 18 metal Ø 18 plastic Ø 30 metal Ø 30 plastic Pre-cabled a b 50 47 50 42 33 25 – – 36. solid-state NO + NC output Characteristics Sensor type Product certifications Connection Operating zone Ø 6.. y 0. for XS4 P – PvR 4 x 0.15 for Ø 18. 4 viewing ports at 90° Yellow LED.25…+ 70 Nickel plated brass for XS1 N and XS2 N Stainless steel.6 29 48 29 48.6 19 50 34 c – 4 5 0 8 0 13 0 8 9 10 3/57 . y 0.3 for Ø 30 y 0.5 28 – – 40.4 0…8 0…12 1. XS1 M08 and XS2 M08 Plastic.5 h u 0 d du8hu0 d u 24 h u 5 d u 12 h u 0 d u 36 h u 8 d u 18 h u 0 d u 54 h u 16 d u 30 h u 0 d u 90 h u 30 h 1 Ø 6. PPS.. Setting-up 1 Pre-cabled. annular c 12…24 with protection against reverse polarity c 10…36 mA V mA Hz Hz Hz ms ms ms y 200 with overload and short-circuit protection y2 y 10 5000 2000 1000 y5 y 0.08 mm2 25 gn.5 and Ø 8 flush mtble Ø 8 non flush mountable Ø 12 flush mountable Ø 12 non flush mountable Ø 18 flush mountable Ø 18 non flush mountable Ø 30 flush mountable Ø 30 non flush mountable Differential travel Degree of protection Conforming to IEC 60529 Storage temperature Operating temperature Materials °C °C Case Cable Conforming to IEC 60068-2-6 Conforming to IEC 60068-2-27 Vibration resistance Shock resistance Switching capacity Voltage drop. amplitude ± 2 mm (f = 10 to 55 Hz) PNP 4-wire See connection on page 9/45. metal and plastic.5 and 8: 4 x 0. general purpose 2 Cylindrical. duration 11 ms Output state indication Rated supply voltage Voltage limits (including ripple) 4 mm mm mm mm mm mm mm mm % XSp ppppC410D UL. y 0. grade 303. dimensions 2 OsiSense XS.7 32 – – Mounted in a metal support d u 6. setting-up.7 for Ø 30 BN/1 PNP BK/4 (NO) WH/2 (NC) 3 4 5 6 NPN 4-wire + – BU/3 Side by side e Dimensions BN/1 NPN BU/3 Face to face eu3 eu3 e u 10 eu4 e u 16 e u 10 e u 16 e u 20 e u 60 e e u 18 e u 18 e u 30 e u 24 e u 48 e u 60 e u 96 e u 120 e u 180 + BK/4 (NO) WH/2 (NC) 7 – Facing a metal object e u 4. y 0.6 28 – – 52.40…+ 85 . closed state Current consumption.2 0…4 0…6. flush mountable and non flush mountable Four-wire DC.5 eu6 e u 12 e u 15 e u 24 e u 30 e u 45 Flush mountable in metal Sensor b IP 68.5 e e u 7.5 e u 4.1 for Ø 8 and Ø 12.5 flush mountable XS1 L06 Ø 8 flush mountable XS1 M08 Ø 8 non flush mountable XS2 M08 Ø 12 flush mountable XS1 N12 Ø 12 non flush mtble XS1 N12 or XS4 P12 Ø 18 flush mountable XS1 N18 Ø 18 non flush mtble XS2 N18 or XS4 P18 Ø 30 flush mountable XS1 N30 Ø 30 non flush mtble XS2 N30 or XS4 P30 a 2 . e M12 connector 0…1. double insulation (except Ø 6.5 33 Connector a b – – 61 36 52.15 of effective sensing distance (Sr) IP 67 Non flush mountable in metal Pre-cabled a b – – 50 36 37.5.Inductive proximity sensors Characteristics. flush and non flush mountable Four-wire DC.205 0.060 825982 Plastic case.5 5 Metal case. non flush mountable 8 NO/NC PNP + NPN Pre-cabled (L = 2 m) (1) XS2 M18KP340 programmable M12 connector XS2 M18KP340D 0.025 Ø 18. threaded M18 x 1 Metal case.075 0. non flush mountable 3 DF532016 4 NO/NC PNP + NPN Pre-cabled (L = 2 m) (1) XS4 P12KP340 programmable M12 connector XS4 P12KP340D 0.120 0.205 0. threaded M30 x 1.145 Plastic case. metal and plastic. (2) For further information.145 Metal case. Example: XS1 M12KP340 becomes XS1 M12KP340L1 with a 5 m long cable. non flush mountable 15 XS2 MppKP340D 825994 7 8 NO/NC PNP + NPN Pre-cabled (L = 2 m) (1) XS2 M30KP340 programmable M12 connector XS2 M30KP340D XSZ B1pp 9 10 3/58 NO/NC PNP + NPN Pre-cabled (L = 2 m) (1) XS4 P30KP340 programmable M12 connector XS4 P30KP340D 0.020 Ø 30 XSZ B130 (1) For a 5 m long cable add L1 to the reference. non flush mountable 8 NO/NC PNP + NPN Pre-cabled (L = 2 m) (1) XS4 P18KP340 programmable M12 connector XS4 P18KP340D 0. solid-state PNP + NPN NO/NC programmable output Function Output Connection Reference Weight kg Ø 12. flush mountable XS1 MppKP340D XS4 PppKP340D 10 NO/NC PNP + NPN Pre-cabled (L = 2 m) (1) XS1 M30KP340 programmable M12 connector XS1 M30KP340D 0. for a 10 m long cable add L2 to the reference. flush mountable 5 XS2 MppKP340 4 NO/NC PNP + NPN Pre-cabled (L = 2 m) (1) XS1 M18KP340 programmable M12 connector XS1 M18KP340D 0. .075 0.010 Ø 18 XSZ B118 0.060 Ø 30. threaded M12 x 1 822102 1 Sensing distance (Sn) mm Metal case.120 0. non flush mountable 801225 6 15 0.145 Accessories (2) Description mm Fixing clamps Reference Weight kg Ø 12 XSZ B112 0.075 0.025 Metal case.120 0. non flush mountable 2 XS1 MppKP340 XS4 PppKP340 4 NO/NC PNP + NPN Pre-cabled (L = 2 m) (1) XS2 M12KP340 programmable M12 connector XS2 M12KP340D 0.060 Metal case.025 Plastic case.205 0. flush mountable 2 NO/NC PNP + NPN Pre-cabled (L = 2 m) (1) XS1 M12KP340 programmable M12 connector XS1 M12KP340D 0.006 0. see page 3/112. general purpose Cylindrical.References 2 Inductive proximity sensors 2 OsiSense XS. CSA.. no-load Maximum switching frequency Ø 12 Ø 18 Ø 30 flush mountable Ø 30 non flush mountable Delays First-up Response Recovery Wiring schemes M12 connector 1 Pre-cabled BN/1 WH/2 BU/3 + – 5 6 + BK/4 BU/3 See connection on page 9/45. e M12 connector Pre-cabled. y 0. flush and non flush mountable Four-wire DC. general purpose 2 Cylindrical.40…+ 85 . metal and plastic. setting-up. amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn. NO or NC output NO NC 2 Setting-up 2 PNP + NPN BU: Blue BN: Brown BK: Black WH: White 3 V V mA V mA Hz Hz Hz Hz ms ms ms 1 c Ø 12 metal Ø 12 plastic Ø 18 metal Ø 18 plastic Ø 30 metal Ø 30 plastic Pre-cabled a b 50 42 – – 60 51 – – 60 51 – – Connector a b 61 42 – – 72 51 – – 72 51 – – Mounted in a metal support d u 12 h u 0 d d u 36 h u 8 Connector a b 65..6 41 60 51 7 h 4 mm mm mm mm mm mm % XSpMppKP340D XSpMppKP340 UL.4 0…8 0…12 1. – BN/1 Minimum mounting distances (mm) Sensor Ø 12 flush mountable XS1 M12 Ø 12 non flush mountable XS2 M12 and XS4 P12 Ø 18 flush mountable XS1 M18 Ø 18 non flush mountable XS2 M18 and XS4 P18 Ø 30 flush mountable XS1 M30 Ø 30 non flush mountable XS2 M30 and XS4 P30 Side by side Face to face e u 24 e u 48 Facing a metal object eu6 e u 12 e e u 10 e u 16 e u 60 e u 96 e u 15 e u 24 d u 18 h u 0 d u 54 h u 16 e u 20 e u 60 e u 120 e u 180 e u 30 e u 45 d u 30 h u 0 d u 90 h u 30 eu4 e u 16 e Dimensions e Flush mountable in metal Sensor a 4 WH/2 BK/4 b 3 4-wire programmable.2 0…4 0…6.6 y 10 5000 2000 1000 1000 y5 y 0. duration 11 ms Yellow LED.6 42 50 42 60 44 60 51 62.Inductive proximity sensors Characteristics. double insulation .35 for Ø 18. dimensions 2 OsiSense XS.15 of effective sensing distance (Sr) IP 67 IP 68. y 0.1 for Ø 12. PPS for XS4 P – PvR 4 x 0. solid-state PNP + NPN NO/NC programmable output Characteristics Sensor type Product certifications Connection Operating zone Ø 12 flush mountable Ø 12 non flush mountable Ø 18 flush mountable Ø 18 non flush mountable Ø 30 flush mountable Ø 30 non flush mountable Differential travel Degree of protection Storage temperature Operating temperature Materials Conforming to IEC 60529 °C °C Case Cable Conforming to IEC 60068-2-6 Conforming to IEC 60068-2-27 Vibration resistance Shock resistance Output state indication Rated supply voltage Voltage limits (including ripple) Switching capacity Voltage drop.34 mm2 25 gn.6 42 61 42 72 44 70 51 74. y 0.15 for Ø 18. y 0. annular c 12…24 with protection against reverse polarity c 10…36 y 200 with overload and short-circuit protection y 2.25…+ 70 Nickel plated brass for XS1 M and XS2 M. 4 viewing ports at 90° Yellow LED.7 for Ø 30 c 5 0 8 0 13 0 10 3/59 . length: 2 m 0…1.6 0…3.3 for Ø 30 y 0. closed state Current consumption.1 for Ø 12.7 41 70 51 8 9 Non flush mountable in metal Pre-cabled a b 54. schemes. 065 0.100 0. 3/60   .References 2 Inductive proximity sensors 2 OsiSense XS.030 0.020 0.100 Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS4 P18MA230 XS4 P18MA230K XS4 P18MB230 XS4 P18MB230K 0.030 0.140 Ø 8.140 0. Example: XS4 P12PA370 becomes XS4 P12PA370D with an M12 connector.060 0.080 (1) For a 5 m long cable add L1 to the reference.030 PNP NPN PNP NPN Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) XS4 P18PA340 XS4 P18NA340 XS4 P18PB340 XS4 P18NB340 0.060 0.025 Pre-cabled (L = 2 m) (1) Pre-cabled (L = 2 m) Pre-cabled (L = 2 m) Pre-cabled (L = 2 m) XS4 P08PA370 XS4 P08NA370 XS4 P08PB370 XS4 P08NB370 0.060 0. threaded M30 x 1. non flush mountable Two-wire AC or DC Three-wire DC.100 0.065 0.140 1/2"-20UNF connector XS4 P30MA230K 0.065 Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS4 P12MA230 XS4 P12MA230K XS4 P12MB230 XS4 P12MB230K 0.030 0. (2) For an M8 connector. for a 10 m long cable add L2 to the reference. general purpose Plastic.025 0. add S to the reference.140 0.060 PNP NPN NC PNP NPN Two-wire a or c 24-240 V 4 NO Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (3) XS4 P12PA370 XS4 P12NA370 XS4 P12PB370 XS4 P12NB370 0.090 0.030 0.120 0.025 0. Example: XS4 P08PA340 becomes XS4 P08PA340S with an M8 connector.030 Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector Pre-cabled (L = 2 m) (1) 1/2"-20UNF connector XS4 P08MA230 XS4 P08MA230K XS4 P08MB230 XS4 P08MB230K 0. threaded M8 x 1 Three-wire c 12-24 V 2.5 Three-wire c 12-24 V 15 NO NC 9 Three-wire c 12-48 V 15 NO NC 10 Weight kg Two-wire a or c 15 NO Pre-cabled (L = 2 m) (1) XS4 P30MA230 0.090 0.100 0.065 0.5 NO NC 801232 3 Ø 12.090 PNP NPN NC PNP NPN Two-wire a or c 24-240 V 8 NO Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (3) XS4 P18PA370 XS4 P18NA370 XS4 P18PB370 XS4 P18NB370 0.030 0.140 0.030 0.100 0.120 0.065 0.140 1/2"-20UNF connector XS4 P30MB230K 0. cylindrical.025 0.100 0.120 0.040 0. threaded M18 x 1 Three-wire c 12-24 V 8 NO 6 NC XS4 P08pp340S Three-wire c 12-48 V 8 NO 7 NC 8 Ø 30. add D to the reference.120 PNP NPN PNP NPN Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (3) Pre-cabled (L = 2 m) (3) XS4 P30PA370 XS4 P30NA370 XS4 P30PB370 XS4 P30NB370 0. Example: XS4 P08PA340 becomes XS4 P08PA340L1 with a 5 m long cable. (3) For an M12 connector.090 0. solid-state output 801231 1 Sensing dist.040 PNP NPN PNP NPN Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) XS4 P30PA340 XS4 P30NA340 XS4 P30PB340 XS4 P30NB340 0.020 PNP NPN PNP NPN Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) Pre-cabled (L = 2 m) (1) (3) XS4 P12PA340 XS4 P12NA340 XS4 P12PB340 XS4 P12NB340 0. threaded M12 x 1 Three-wire c 12-24 V 4 NO 4 XS4 Ppppp340D XS4 Ppppp370D XS4 Ppppp230K 5 NC Three-wire c 12-48 V 4 NO 801167 NC Ø 18.5 NO NC XS4 Ppppp340 XS4 Ppppp370 XS4 Ppppp230 2 PNP NPN PNP NPN Three-wire c 12-48 V 2. Function Output (Sn) mm Connection Reference Pre-cabled (L = 2 m) (1) (2) Pre-cabled (L = 2 m) (1) (2) Pre-cabled (L = 2 m) (1) (2) Pre-cabled (L = 2 m) (1) (2) XS4 P08PA340 XS4 P08NA340 XS4 P08PB340 XS4 P08NB340 0.080 NC Pre-cabled (L = 2 m) (1) XS4 P30MB230 0.065 0.5 NO PNP NPN NC PNP NPN Two-wire a or c 24-240 V 2. 4 0…12 1. e Length: 2 m M8 on Ø 8 1/2"-20UNF M12 on Ø 12. a 25 y 40 y 0.3 24. dimensions 2 OsiSense XS.15 for Ø 18. Ø 8 and Ø 12 Ø 18 Ø 30 First-up Response Recovery PNP BU: Blue BN: Brown BK: Black NPN + BN/1 PNP BK/4 (NO) BK/2 (NC) BN/1 NPN a or c 20…264 5…100 for Ø 8.7 for Ø 30 Delays Wiring schemes Connector M8 1 M12 4 2 Pre-cabled 4 3 1 2 3 1/2"-20UNF Ø 6.8 51. 5…200 for Ø 12.5 70 51.5.4 for Ø 30 2 3 4 5 6 2-wire a or c BN/2 + BK/4 (NO) BK/2 (NC) 7 BU/3 BU/3 BU/3 1 For M8 connector.1 for Ø 8 and Ø 12. y 0.5 and Ø 8 Ø 12 Ø 18 Ø 30 Differential travel Degree of protection Conforming to IEC 60529 Storage temperature Operating temperature Materials °C °C Case Cable Vibration resistance Shock resistance Output state indication Conforming to IEC 60068-2-6 Conforming to IEC 60068-2-27 XS4 Ppppp340p XS4 Ppppp370p XS4 PppMp230p UL.40…+ 85 . Setting-up e Face to face e u 10 e u 16 e u 16 e u 60 Dimensions b e e u 30 e u 48 e u 96 e u 180 Facing a metal object e u 7.6 42. double insulation for pre-cabled version (except Ø 8: IP 67) IP 67 for connector version .35 for Ø 18. open state Current consumption. NO and NC outputs on terminal 4 z: 2 z: 3 3 See connection on page 9/45.5 y 0.6 Connector (mm) a b 42 26 48 27 48 29 50 34 Mounted in a metal support d d u 24 h u 5 d u 36 h u 8 d u 54 h u 16 d u 90 h u 30 h Side by side Ø 8 Ø 12 Ø 18 Ø 30 a 8 Minimum mounting distances (mm) 9 3-wire c 12-48 V or 2-wire a/c 24-240 V Pre-cabled (mm) a b 50 40 52 41. Ø 12 and Ø 18. general purpose 2 Plastic. a 25 c 1000. closed state Residual current. cylindrical.25…+ 70 PPS PvR 2 x 0. non flush mountable Two-wire AC or DC Three-wire DC..11 mm2 25 gn.3 for Ø 30 y 0. CSA.8 51.1 61. no-load Maximum switching frequency V mA mA Hz Hz Hz ms ms ms y2 – y 10 5000 2000 1000 y 10 y 0. Ø 18 and Ø 30 0…2 0…3. duration 11 ms Yellow LED: annular on pre-cabled version Yellow LED: 4 viewing ports at 90° on connector version c 12…24 with protection c 12…48 with protection a or c 24…240 against reverse polarity against reverse polarity (50/60 Hz) Rated supply voltage V Voltage limits (including ripple) Switching capacity V mA c 10…36 c 10…58 y 200 with overload and short-circuit protection Voltage drop.15 of effective sensing distance (Sr) IP 68.6 35. amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn.34 mm2 except Ø 6.1 Connector (mm) a b 61 40 61 42 70 51. schemes. y 0.2 0…6. y 0. 5…200 c and 5…300 a for Ø 18 and 30 y 5.Inductive proximity sensors Characteristics.11 mm2 except Ø 8: 2 x 0.1 for Ø 8 and Ø 12..6 – c 3000.2 y 0. y 0.34 mm2 PvR 3 x 0.3 31.5 10 3/61 . solid-state output Characteristics Sensor type Product certifications Connection Pre-cabled Connector Operating zone mm mm mm mm % Ø 6. y 0.5 and 8: 3 x 0.6 61.2 for Ø 8. a 25 c 2000.5 e u 12 e e u 24 e u 45 3-wire c 12-24 V XS4 P Ø 8 Ø 12 Ø 18 Ø 30 Pre-cabled (mm) a b 33 26 35 24. setting-up. 006 0. threaded M8 x 1 Three-wire c 12-24 V. solid-state output Sensing Function Output distance (Sn) mm 1 2 Connection Reference kg Ø 8.025 XS2 30ALPAL2 XS2 30ALPAM12 XS2 30ALNAL2 XS2 30ALNAM12 XS2 30ALPBL2 XS2 30ALPBM12 XS2 30ALNBL2 XS2 30ALNBM12 0.025 0.030 XS2 12ALPAL2 XS2 12ALPAM12 XS2 12ALNAL2 XS2 12ALNAM12 XS2 12ALPBL2 XS2 12ALPBM12 XS2 12ALNBL2 XS2 12ALNBM12 0.135 0. Weight kg 0. plastic. (2) For a 5 m long cable replace L2 by L5.135 0. general purpose Basic.010 0. threaded M12 x 1 XS2 ppALppL2 3 Three-wire c 12-24 V. for a 10 m long cable replace L2 by L10.095 0. cylindrical. non flush mountable 15 NO PNP Pre-cabled (L = 2 m) (2) M12 connector NPN Pre-cabled (L = 2 m) (2) M12 connector NC PNP Pre-cabled (L = 2 m) (2) M12 connector NPN Pre-cabled (L = 2 m) (2) M12 connector 6 Accessories (3) Description Fixing clamps 7 XSZ B1pp 8 9 10 3/62 Reference Ø 8 XSZ B108 Ø 12 XSZ B112 Ø 18 XSZ B118 Ø 30 XSZ B130 (1) For a 5 m long cable replace L2 by L5.006 0.095 0.065 0.065 0.095 0.010 0.065 0.030 0. non flush mountable 2.135 0. see page 3/112.020 .References Inductive proximity sensors 0 OsiSense XS. Example: XS2 08ALPAL2 becomes XS2 08ALPAL5 with a 5 m long cable.5 NO PNP Pre-cabled (L = 2 m) (1) NPN Pre-cabled (L = 2 m) (1) NC PNP Pre-cabled (L = 2 m) (1) NPN Pre-cabled (L = 2 m) (1) Weight XS2 08ALPAL2 XS2 08ALNAL2 XS2 08ALPBL2 XS2 08ALNBL2 0. non flush mountable 8 NO PNP Pre-cabled (L = 2 m) (2) M12 connector NPN Pre-cabled (L = 2 m) (2) M12 connector NC PNP Pre-cabled (L = 2 m) (2) M12 connector NPN Pre-cabled (L = 2 m) (2) M12 connector Ø 30.010 0.030 0.025 0. Example: XS2 18ALPAL2 becomes XS2 18ALPAL5 with a 5 m long cable.010 XS2 18ALPAL2 XS2 18ALPAM12 XS2 18ALNAL2 XS2 18ALNAM12 XS2 18ALPBL2 XS2 18ALPBM12 XS2 18ALNBL2 XS2 18ALNBM12 0.135 0.065 0.065 Ø 12. threaded M30 x 1.010 0.5 Three-wire c 12-24 V.065 0.003 0.025 0.065 0. threaded M18 x 1 4 XS2 ppALppM12 5 Three-wire c 12-24 V. non flush mountable Three-wire DC. (3) For further information.095 0.065 0. non flush mountable 4 NO PNP Pre-cabled (L = 2 m) (2) M12 connector NPN Pre-cabled (L = 2 m) (2) M12 connector NC PNP Pre-cabled (L = 2 m) (2) M12 connector NPN Pre-cabled (L = 2 m) (2) M12 connector Ø 18. 2 0…6.4 0…12 1. duration 11 ms V V mA V mA Hz Hz Hz Hz ms ms ms Ø 8 Ø 12 Ø 18 Ø 30 Delays First-up Response Recovery (1) Detection curves.5 51.5 e u 12 e u 24 e u 45 Mounted in a metal support d u 24 h u 5 d u 36 h u 8 d u 54 h u 16 d u 90 h u 30 Ø 8 Ø 12 Ø 18 Ø 30 XS2 08AL XS2 12AL XS2 18AL XS2 30AL Pre-cabled (mm) a 49 49 58.5 10 3/63 .3 y 0. amplitude ± 2 mm (f = 10 to 55 Hz) + BK/4 (NO) BK/2 (NC) – BU/3 7 See connection on page 9/45. see page 3/116. e Length: 2 m – 0…2 0…3.8 58. on rear Yellow LED: 4 viewing ports at 90° c 12…24 with protection against reverse polarity c 10…36 y 100 (except Ø 8: y 50) with overload and short-circuit protection y2 y 10 1000 1000 1000 1000 y5 y 0. setting-up. general purpose Basic. dimensions 0 OsiSense XS. closed state Current consumption.15 of effective sensing distance (Sr) IP 67 .Inductive proximity sensors Characteristics. Setting-up Minimum mounting distances (mm) d h e e e Sensors Ø 8 Ø 12 Ø 18 Ø 30 XS2 08AL XS2 12AL XS2 18AL XS2 30AL Side by side e u 10 e u 16 e u 16 e u 60 Dimensions b Facing a metal object e u 7. CSA. cylindrical.40…+ 85 ..3 PNP 4 5 6 NPN + BN/1 PNP BN/1 NPN BK/4 (NO) BK/2 (NC) – BU/3 2 XS2ppALPpM12 XS2ppALNpM12 50 gn. XS2ppALPpL2 XS2ppALNpL2 UL.5 Connector (mm) a – 61 70.11 mm2 25 gn.3 70. non flush mountable Three-wire DC.3 8 9 Non flush mountable in metal Sensors a Face to face e u 30 e u 48 e u 96 e u 180 b – 42 51. schemes.25…+ 70 PPS PVC 3 x 0.34 mm2 except Ø 8: 3 x 0. solid-state output Characteristics Sensor type Product certifications Connection Operating zone (1) Differential travel Degree of protection Storage temperature Operating temperature Materials Vibration resistance Shock resistance Pre-cabled Connector Ø 8 Ø 12 Ø 18 Ø 30 mm mm mm mm % Conforming to IEC 60529 °C °C Case Cable Conforming to IEC 60068-2-6 Conforming to IEC 60068-2-27 Output state indication Rated supply voltage Voltage limits (including ripple) Switching capacity Voltage drop. plastic.8 b 40 42 51.5 51.. no-load Maximum switching frequency Wiring schemes Connector M12 4 1 Pre-cabled BU: Blue BN: Brown BK: Black 3 1 – M12 2 – 3 Yellow LED. 015 XS2 08BLPAL2 XS2 08BLPAM8 XS2 08BLPAM12 XS2 08BLNAL2 XS2 08BLNAM8 XS2 08BLNAM12 XS2 08BLPBL2 XS2 08BLPBM8 XS2 08BLPBM12 XS2 08BLNBL2 XS2 08BLNBM8 XS2 08BLNBM12 0. Example: XS1 12BLPAL2 becomes XS1 12BLPAL5 with a 5 m long cable.008 0. general purpose Basic.008 0.035 0.Inductive proximity sensors References 0 OsiSense XS.035 0.030 XS1 08BLPAL2 XS1 08BLPAM8 XS1 08BLPAM12 XS1 08BLNAL2 XS1 08BLNAM8 XS1 08BLNAM12 XS1 08BLPBL2 XS1 08BLPBM8 XS1 08BLPBM12 XS1 08BLNBL2 XS1 08BLNBM8 XS1 08BLNBM12 0.008 0. cylindrical.070 0.070 0.5.070 0.015 0.008 0.015 0. (2) For a 5 m long cable replace L2 by L5.015 XS1 12BLPAL2 XS1 12BLPAM12 XS1 12BLNAL2 XS1 12BLNAM12 XS1 12BLPBL2 XS1 12BLPBM12 XS1 12BLNBL2 XS1 12BLNBM12 0.035 0.015 .070 0.035 0.015 0. flush and non flush mountable Two-wire AC Three-wire DC.5 NO PNP Pre-cabled (L = 2 m) (1) M8 connector M12 connector NPN Pre-cabled (L = 2 m) (1) M8 connector M12 connector NC PNP Pre-cabled (L = 2 m) (1) M8 connector M12 connector NPN Pre-cabled (L = 2 m) (1) M8 connector M12 connector XS1 08BLppM8 XS2 08BLppL2 6 7 Weight kg XS1 06BLPAL2 XS1 06BLNAL2 XS1 06BLPBL2 XS1 06BLNBL2 0. metal.008 0.5 NO PNP Pre-cabled (L = 2 m) (1) NPN Pre-cabled (L = 2 m) (1) NC PNP Pre-cabled (L = 2 m) (1) NPN Pre-cabled (L = 2 m) (1) 2 Three-wire c 12-24 V.070 0.015 0.015 0. 10 Characteristics: page 3/66 3/64 Schemes: page 3/66 Dimensions: page 3/67 0.008 0. flush mountable 2 NO Pre-cabled (L = 2 m) (2) XS1 12BLppL2 8 9 Reference Ø 8. threaded M12 x 1 Three-wire c 12-24 V. threaded M8 x 1 4 5 Connection Ø 6.035 0.015 0.5 NO PNP Pre-cabled (L = 2 m) (1) M8 connector M12 connector NPN Pre-cabled (L = 2 m) (1) M8 connector M12 connector NC PNP Pre-cabled (L = 2 m) (1) M8 connector M12 connector NPN Pre-cabled (L = 2 m) (1) M8 connector M12 connector Three-wire c 12-24 V. for a 10 m long cable replace L2 by L10.035 0. flush mountable 1. plain XS1 06BLppL2 3 Function Output XS2 12BLppM12 XS2D12PA140D-PRO-2-M Three-wire c 12-24 V.008 0.008 0.015 XS1 12BLFAL2 0. solid-state output Sensing distance (Sn) mm 1 Three-wire c 12-24 V. Example: XS1 06BLPAL2 becomes XS1 06BLPAL5 with a 5 m long cable.015 0.030 0.035 0.070 0. flush mountable 2 NO PNP Pre-cabled (L = 2 m) (2) M12 connector NPN Pre-cabled (L = 2 m) (2) M12 connector NC PNP Pre-cabled (L = 2 m) (2) M12 connector NPN Pre-cabled (L = 2 m) (2) M12 connector Two-wire a 24-240 V.030 0.015 0.070 0.035 0.070 0.030 0.015 0.015 0.015 0. non flush mountable 4 NO PNP Pre-cabled (L = 2 m) (2) XS2 12BLPAL2 M12 connector XS2 12BLPAM12 NPN Pre-cabled (L = 2 m) (2) XS2 12BLNAL2 M12 connector XS2 12BLNAM12 NC PNP Pre-cabled (L = 2 m) (2) XS2 12BLPBL2 M12 connector XS2 12BLPBM12 NPN Pre-cabled (L = 2 m) (2) XS2 12BLNBL2 M12 connector XS2 12BLNBM12 (1) For a 5 m long cable replace L2 by L5. non flush mountable 2.015 0.075 Ø 12. flush mountable 1. metal. threaded M18 x 1 Three-wire c 12-24 V.075 0.205 XS2 30BLPAL2 XS2 30BLPAM12 XS2 30BLNAL2 XS2 30BLNAM12 XS2 30BLPBL2 XS2 30BLPBM12 XS2 30BLNBL2 XS2 30BLNBM12 0. Example: XS1 18BLPAL2 becomes XS1 18BLPAL5 with a 5 m long cable.085 0. cylindrical.5 XSZ B165 Ø 8 XSZ B108 Ø 12 XSZ B112 Ø 18 XSZ B118 Ø 30 XSZ B130 (1) For a 5 m long cable replace L2 by L5.035 0.References (continued) Inductive proximity sensors 0 OsiSense XS. non flush mountable 8 NO PNP Pre-cabled (L = 2 m) (1) M12 connector NPN Pre-cabled (L = 2 m) (1) M12 connector NC PNP Pre-cabled (L = 2 m) (1) M12 connector NPN Pre-cabled (L = 2 m) (1) M12 connector XS1 18BLppM12 XS1 18BLpppL2 Weight XS1 18BLPAL2 XS1 18BLPAM12 XS1 18BLNAL2 XS1 18BLNAM12 XS1 18BLPBL2 XS1 18BLPBM12 XS1 18BLNBL2 XS1 18BLNBM12 0.105 0.105 0.035 0.035 0.075 0.155 0. threaded M30 x 1.006 0.5 Three-wire c 12-24 V.035 XS1 18BLFAL2 0. flush mountable 5 NO Pre-cabled (L = 2 m) (1) Three-wire c 12-24 V.105 0.155 0. XSZ B1pp Weight kg 0.120 XS2 18BLPAL2 XS2 18BLPAM12 XS2 18BLNAL2 XS2 18BLNAM12 XS2 18BLPBL2 XS2 18BLPBM12 XS2 18BLNBL2 XS2 18BLNBM12 0. flush and non flush mountable Two-wire AC Three-wire DC.155 0.165 0.105 0. for a 10 m long cable replace L2 by L10.035 0.020 1 2 3 4 5 6 7 8 9 10 Characteristics: page 3/66 Schemes: page 3/66 Dimensions: page 3/67 3/65 .105 0. (2) For further information.165 0.155 0.035 0.085 Ø 30.005 0.035 0.165 0. flush mountable 10 NO Pre-cabled (L = 2 m) (1) Three-wire c 12-24 V.006 0.035 XS1 30BLPAL2 XS1 30BLPAM12 XS1 30BLNAL2 XS1 30BLNAM12 XS1 30BLPBL2 XS1 30BLPBM12 XS1 30BLNBL2 XS1 30BLNBM12 0.105 0.165 0.085 0. flush mountable 5 NO PNP Pre-cabled (L = 2 m) (1) M12 connector NPN Pre-cabled (L = 2 m) (1) M12 connector NC PNP Pre-cabled (L = 2 m) (1) M12 connector NPN Pre-cabled (L = 2 m) (1) M12 connector Two-wire a 24-240 V.010 0. flush mountable 10 NO PNP Pre-cabled (L = 2 m) (1) M12 connector NPN Pre-cabled (L = 2 m) (1) M12 connector NC PNP Pre-cabled (L = 2 m) (1) M12 connector NPN Pre-cabled (L = 2 m) (1) M12 connector Two-wire a 24-240 V.105 0.105 0.075 0. general purpose Basic. non flush mountable 15 NO PNP Pre-cabled (L = 2 m) (1) M12 connector NPN Pre-cabled (L = 2 m) (1) M12 connector NC PNP Pre-cabled (L = 2 m) (1) M12 connector NPN Pre-cabled (L = 2 m) (1) M12 connector XS1 30BLppL2 XS2 30BLppL2 Accessories (2) Description Fixing clamps Reference Ø 6. solid-state output Sensing distance (Sn) mm Function Output Connection Reference kg Ø 18.075 XS1 30BLFAL2 0. see page 3/112.085 0. duration 11 ms Output state indication Yellow LED. flush and non flush mountable Two-wire AC Three-wire DC. Ø 12.11 mm2 Vibration resistance Conforming to IEC 60068-2-6 25 gn.2 0…4 0…6.Inductive proximity sensors Characteristics.2 0…2 0…1.5 and Ø 8: y 50) with overload and short-circuit protection Ø 6. general purpose Basic.3 Recovery ms y 0. on rear a 24…240 a 20…264 5…300 (40…200 for Ø 12) (2) y 4.2 – 0…1.5 except Ø 6. Ø 8 Hz 1000 Hz 1000 Ø 12 Hz 1000 Ø 18 Hz 1000 Ø 30 Delays First-up ms y 5 Response ms y 0. (2) These sensors do not incorporate overload or short-circuit protection and therefore. Wiring schemes Connector M8 8 XS1 ppBLPpMp XS2ppBLPpL2 XS2 ppBLPpMp XS1ppBLFAL2 XS1 ppBLNpMp XS2ppBLNpL2 XS2 ppBLNpMp 0…1.34 mm2 except Ø 6. Ø 18 and Ø 30 mm mm mm mm mm % V y2 Length 2 m – – – 0…1.25…+ 70 Materials Case Nickel plated brass – PVC – Cable PVC 3 x 0. e Length 2 m – M12 4 1 4 Pre-cabled 3 3 1 2 See connection on page 9/45.4 A “quick-blow” fuse in series with the load.5 and Ø 8: and Ø 8: 2 3 x 0. Ø 12. it is essential to connect a 0. 9 10 3/66 BU: Blue BN: Brown BK: Black PNP BN/1 PNP BU/3 NPN + BK/4 (NO) BK/2 (NC) – BN/1 NPN BU/3 2-wire a + BK/4 (NO) BK/2 (NC) – BN BU .. solid-state output Characteristics 1 2 3 4 5 Sensor type Product certifications Connection Pre-cabled Connector Operating zone (1) 7 – M8 on Ø 8 M12 on Ø 8.5 (y 7 for Ø 12) – y 1. open state mA – Maximum switching frequency Ø 6.6 0…3. amplitude ± 2 mm (f = 10 to 55 Hz) Shock resistance Conforming to IEC 60068-2-27 50 gn.5 – 25 25 25 y 40 y 10 y 15 Current consumption. no-load mA y 10 Residual current. schemes 0 OsiSense XS.40…+ 85 Operating temperature °C . CSA.4 0…8 0…12 Differential travel 1.34 mm2 3 x 0. see page 3/112. on Yellow LED: 4 Yellow LED. closed state 6 XS1ppBLPpL2 XS1ppBLNpL2 UL.5. Ø 18 and Ø 30 Length 2 m – – M8 on Ø 8 M12 on Ø 8. metal. cylindrical. see page 3/116..5 Ø 8 Ø 12 Ø 18 Ø 30 Voltage drop.3 (1) Detection curves.6 0…4 0…8 PVC 2 x 0.34 mm2 Yellow LED.15 of effective sensing distance (Sr) Degree of protection Conforming to IEC 60529 IP 67 Storage temperature °C .11 mm 3 x 0. on Yellow LED: 4 rear viewing ports at rear viewing ports at 90° 90° Rated supply voltage V c 12…24 with protection against reverse polarity Voltage limits (including ripple) V c 10…36 Switching capacity mA y 100 (except Ø 6. 4 58 (1) 51.5 5 6 Non flush mountable in metal Sensors Ø 8 Ø 12 Ø 18 Ø 30 XS2 08 XS2 12 XS2 18 XS2 30 Pre-cabled (mm) a 42 41.5 64 48.5 63.4 35.5 h u 0 XS1 08 eu3 e u 18 e u 4.3 58 (1) 48.6 34 63.5 c 4 5 8 13 7 8 9 10 3/67 .3 58 (1) 48.8 34.5 Mounted in a metal support d u 6.4 58 (1) (1) For XS1 ppBLFAL2 M8 connector (mm) a b – – 52.6 50.4 52.3 – – – – – – M12 connector (mm) a b – – 61.1 40. general purpose Basic.3 50.5 flush mountable Ø 8 flush mountable Ø 8 non flush mountable Ø 12 flush mountable Ø 12 non flush mountable Ø 18 flush mountable Ø 18 non flush mountable Ø 30 flush mountable Ø 30 non flush mountable 0 c Ø 6.4 35. dimensions Setting-up OsiSense XS.7 – – – – – – c 4 – – – M12 connector (mm) a b 61.2 41.4 41.3 58 (1) 38. flush and non flush mountable Two-wire AC Three-wire DC.7 58 (1) 51.4 M8 connector (mm) a b 52. metal.5 Ø 8 Ø 12 Ø 18 Ø 30 XS1 06 XS1 08 XS1 12 XS1 18 XS1 30 Pre-cabled (mm) a b 42 – 42 39.6 b 35.4 35.4 40.4 39 53 39 64 48. cylindrical.5 du8hu0 XS2 08 e u 10 e u 30 e u 7.Inductive proximity sensors Setting-up.2 37. solid-state output Minimum mounting distances (mm) XS1 06 Side by side eu3 Face to face e u 18 Facing a metal object e u 4.5 d u 24 h u 5 XS1 12 eu4 e u 24 eu6 d u 12 h u 0 XS2 12 e u 16 e u 48 e u 12 d u 36 h u 8 XS1 18 e u 10 e u 60 e u 15 d u 18 h u 0 XS2 18 e u 16 e u 96 e u 24 d u 54 h u 16 XS1 30 e u 20 e u 120 e u 30 d u 30 h u 0 XS2 30 e u 60 e u 180 e u 45 d u 90 h u 30 Dimensions 2 3 4 Flush mountable in metal Sensors b h e e a 1 d e Sensors Ø 6. 010 0.100 0.015 0.160 0. general purpose Cylindrical.100 0.025 0. almost flush mountable.100 0.070 0.040 0.040 0.025 0. threaded M8 x 1 3 NO 801231 2.100 0.015 0.020 Pre-cabled (L = 2 m) M12 connector Pre-cabled (L = 2 m) M12 connector Pre-cabled (L = 2 m) M12 connector Pre-cabled (L = 2 m) M12 connector XS1 N18PA349 XS1 N18PA349D XS1 N18NA349 XS1 N18NA349D XS1 N18PB349 XS1 N18PB349D XS1 N18NB349 XS1 N18NB349D 0.020 0. Reference XSZ B165 XSZ B108 XSZ B112 XSZ B118 XSZ B130 Weight kg 0.100 0.5 801232 8 20 NO PNP NPN NC 9 XS1 Npppp349D PNP NPN Accessories (1) Description mm Fixing clamps 10 XSZ B1pp 3/68 Ø 6.005 0.035 0. threaded M18 x 1 10 NO XS1 N08pp349S PNP NPN 7 NC PNP NPN Ø 30.015 0.5 PNP NPN NC 4 XS1 Npppp349 PNP NPN Ø 12.010 0.160 0. solid-state output Sensing distance (Sn) (mm) 1 Function Output Reference 801120 2.100 Ø 8. threaded M12 x 1 5 4 NO PNP NPN 801167 NC 6 Connection PNP NPN Ø 18.100 0.020 0.020 0.010 0.5 2 NO NC XS1 L06pA349 Weight kg Ø 6. increased range Three-wire DC.020 Pre-cabled (L = 2 m) M12 connector Pre-cabled (L = 2 m) M12 connector Pre-cabled (L = 2 m) M12 connector Pre-cabled (L = 2 m) M12 connector XS1 N12PA349 XS1 N12PA349D XS1 N12NA349 XS1 N12NA349D XS1 N12PB349 XS1 N12PB349D XS1 N12NB349 XS1 N12NB349D 0.035 0.020 0.015 0.070 0.035 0.020 0.006 0.025 0.015 0.070 0.010 Pre-cabled (L = 2 m) M8 connector M12 connector Pre-cabled (L = 2 m) M8 connector M12 connector Pre-cabled (L = 2 m) M8 connector M12 connector Pre-cabled (L = 2 m) M8 connector M12 connector XS1 N08PA349 XS1 N08PA349S XS1 N08PA349D XS1 N08NA349 XS1 N08NA349S XS1 N08NA349D XS1 N08PB349 XS1 N08PB349S XS1 N08PB349D XS1 N08NB349 XS1 N08NB349S XS1 N08NB349D 0. threaded M30 x 1. plain PNP NPN PNP NPN Pre-cabled (L = 2 m) M8 connector M12 connector Pre-cabled (L = 2 m) M8 connector M12 connector Pre-cabled (L = 2 m) M8 connector Pre-cabled (L = 2 m) M8 connector XS1 L06PA349 XS1 L06PA349S XS1 L06PA349D XS1 L06NA349 XS1 L06NA349S XS1 L06NA349D XS1 L06PB349 XS1 L06PB349S XS1 L06NB349 XS1 L06NB349S 0.160 0.035 0.070 0. see page 3/112.5 (plain) Ø 8 Ø 12 Ø 18 Ø 30 (1) For further information.010 0.020 .015 0.5.040 Pre-cabled (L = 2 m) M12 connector Pre-cabled (L = 2 m) M12 connector Pre-cabled (L = 2 m) M12 connector Pre-cabled (L = 2 m) M12 connector XS1 N30PA349 XS1 N30PA349D XS1 N30NA349 XS1 N30NA349D XS1 N30PB349 XS1 N30PB349D XS1 N30NB349 XS1 N30NB349D 0.040 0.160 0.020 0.025 0.100 0.References 2 Inductive proximity sensors 2 OsiSense XS.006 0. 5 and 8: 3 x 0.15 of effective sensing distance (Sr) Differential travel Degree of protection Conforming to IEC 60529 IP 68. solid-state output 2 Characteristics Sensor type Product certifications XS1ppppp349D UL.6 d u 14 h u 2.6 d u 50 h u 6 8 Flush mountable in metal Sensor b – BN/1 NPN For M8 connector. CSA. y 0. y 1. NO and NC outputs on terminal 4 Side by side a BK/4 (NO) BK/2 (NC) BU/3 See connection on page 9/45.5 31. closed state V y2 Current consumption. y 0.34 mm2 except Ø 6. increased range Three-wire DC.5 27.40…+ 85 Operating temperature °C .Inductive proximity sensors Characteristics. duration 11 ms Output state indication Maximum switching frequency 2 IP 69K for Ø 12 to Ø 30 Storage temperature Materials 1 Ø 6. schemes. no-load mA y 10 Ø 6. amplitude ± 2 mm (f = 10 to 55 Hz) PvR 3 x 0. general purpose Cylindrical.5 e e u 12 e u 30 e u 60 Mounted in a metal support d u 10 h u 1. annular Yellow LED..6 10 3/69 .5 and Ø 8: IP 67) IP 67 Conforming to DIN 40050 °C .6 31.6 M8 connector a b 42 34 42 26 – – – – – – M12 connector a 45 45 50 50 54.6 for Ø 30 Recovery ms y 0. double insulation (except Ø 6.6 38. dimensions OsiSense XS.2 for Ø 8 and Ø 12.5 42.11 mm2 Yellow LED.5 e u 7.5 and Ø 8 mm 0…2 Ø 12 mm 0…3.2 for Ø 8 and Ø 12. length: 2 m Operating zone Ø 6. 4 viewing ports at 90° Rated supply voltage V c 12…24 with protection against reverse polarity Voltage limits (including ripple) V c 10…36 Switching capacity mA y 200 with overload and short-circuit protection Voltage drop. Ø 8 and Ø 12 Hz 2500 Ø 18 Hz 1000 Ø 30 Hz 500 First-up ms y5 Response ms y 0.2 Ø 18 mm 0…8 Ø 30 mm 0…16 % 1.3 9 b 24 23 30 27.5 Ø 8 Ø 12 Ø 18 Ø 30 Pre-cabled a b 33 30 33 25 35 24. almost flush mountable. setting-up.6 d d u 10 h u 1.5 Ø 8 Ø 12 Ø 18 Ø 30 + BK/4 (NO) BK/2 (NC) – BU/3 7 Minimum mounting distances (mm) e Dimensions Face to face eu5 eu5 eu8 e u 20 e u 40 e e u 30 e u 30 e u 48 e u 96 e u 240 Facing a metal object e u 7.25…+ 70 Vibration resistance Shock resistance Case Nickel plated brass Cable – Conforming to IEC 60068-2-6 Conforming to IEC 60068-2-27 25 gn. 6 NPN 3-wire + BN/1 PNP 2 Setting-up precautions 5 PNP 3-wire BU: Blue BN: Brown BK: Black 4 h Delays 3 50 gn.. e XS1 ppppp349S XS1ppppp349 Connection M12 connector M8 connector Pre-cabled.4 for Ø 30 Wiring schemes Connector M8 1 Pre-cabled M12 4 4 3 3 1 Sensor Ø 6.5.4 d u 28 h u 3.3 for Ø 18. y 0.7 for Ø 18. References 2 Inductive proximity sensors 2 OsiSense XS, general purpose Miniature, cylindrical, flush and non flush mountable Three-wire DC, solid-state output 801308 1 Ø 4 plain (1) Sensing distance Function (Sn) mm Connection (2) Reference NO XS1 L04pp310 Pre-cabled (L = 2 m) M8 connector Pre-cabled (L = 2 m) M8 connector Pre-cabled (L = 2 m) M8 connector Pre-cabled (L = 2 m) M8 connector XS1 L04PA310 XS1 L04PA310S XS1 L04NA310 XS1 L04NA310S XS1 L04PB310 XS1 L04PB310S XS1 L04NB310 XS1 L04NB310S 0,025 0.010 0.025 0.010 0.025 0.010 0.025 0.010 Pre-cabled (L = 2 m) M8 connector Pre-cabled (L = 2 m) M8 connector Pre-cabled (L = 2 m) M8 connector Pre-cabled (L = 2 m) M8 connector XS1 L04PA311 XS1 L04PA311S XS1 L04NA311 XS1 L04NA311S XS1 L04PB311 XS1 L04PB311S XS1 L04NB311 XS1 L04NB311S 0.025 0.010 0.025 0.010 0.025 0,010 0.025 0.010 Connection (2) Reference PNP NPN PNP NPN Pre-cabled (L = 2 m) Pre-cabled (L = 2 m) Pre-cabled (L = 2 m) Pre-cabled (L = 2 m) XS1 N05PA310 XS1 N05NA310 XS1 N05PB310 XS1 N05NB310 0,030 0,030 0,030 0,030 PNP Pre-cabled (L = 2 m) M8 connector Pre-cabled (L = 2 m) M8 connector Pre-cabled (L = 2 m) M8 connector Pre-cabled (L = 2 m) M8 connector XS1 N05PA311 XS1 N05PA311S XS1 N05NA311 XS1 N05NA311S XS1 N05PB311 XS1 N05PB311S XS1 N05NB311 XS1 N05NB311S 0.030 0.015 0.030 0.015 0.030 0.015 0.030 0.015 Connection (2) Reference PNP 801316 NPN NC PNP NPN Stainless steel case, flush mountable XS1 N05pp310 0,8 NO PNP NPN 801315 3 NC PNP NPN XS1 N05pp311S Ø 5, threaded M5 x 0.5 (1) Sensing distance Function (Sn) mm 1 NO NC 5 Output Stainless steel case, flush mountable XS1 L04pp310S 0.8 NO 801131 NPN NC 6 Ø 6.5 plain (1) Sensing distance Function (Sn) mm Output Weight kg 801132 Stainless steel case, non flush mountable 2.5 NO PNP NPN XSp L06pp340S XSp L06pp349S NC PNP NPN 801141 8 PNP NPN XSp L06pp340 7 Weight kg Brass case, flush mountable 801309 4 Weight kg Brass case, flush mountable 1 2 Output Pre-cabled (L = 2 m) M8 connector M12 connector Pre-cabled (L = 2 m) M8 connector M12 connector Pre-cabled (L = 2 m) M8 connector M12 connector Pre-cabled (L = 2 m) M8 connector M12 connector XS2 L06PA340 XS2 L06PA340S XS2 L06PA340D XS2 L06NA340 XS2 L06NA340S XS2 L06NA340D XS2 L06PB340 XS2 L06PB340S XS2 L06PB340D XS2 L06NB340 XS2 L06NB340S XS2 L06NB340D 0.025 0.010 0.015 0.025 0.010 0.015 0.025 0.010 0.015 0.025 0.010 0.015 (1) For accessories, see page 3/112. (2) For a 5 m long cable add L1 to the reference; for a 10 m long cable add L2 to the reference. Example: XS1 L04PA310 becomes XS1 L04PA310L1 with a 5 m long cable. 9 XSp L06pp340D 10 3/70 Inductive proximity sensors Characteristics, schemes, setting-up, dimensions 2 OsiSense XS, general purpose Miniature, cylindrical, flush and non flush mountable Three-wire DC, solid-state output 2 Characteristics Sensor type Product certifications Connection (1) Connector Pre-cabled Ø 4 Ø 5 Ø 6.5 non flush mountable Conforming to IEC 60529 Operating zone Degree of protection Storage temperature Operating temperature Materials mm mm mm °C °C Case Cable Conforming to IEC 60068-2-6 Conforming to IEC 60068-2-27 Vibration resistance Shock resistance Output state indication Rated supply voltage V Voltage limits (including ripple) V Current consumption, no-load Switching capacity 3-wire PNP/NPN mA mA Voltage drop, closed state Maximum switching frequency Delays First-up Response Recovery (1) Detection curves, see page 3/116 V kHz ms ms ms Wiring schemes Connector M8 4 1 Pre-cabled M12 4 3 1 2 PNP 3-wire BU: Blue BN: Brown BK: Black WH: White 3 XS1 ppppppp; XS2 L06pA340 XS1ppppppppS; XS1ppppppppD; XS2 L06pA340p UL, CSA, e M8 on XS1 ppppppppS and – M12 on XS1 ppppppppD – Length: 2 m 0…0.8 (brass), 0…0.6 (stainless steel) 0…0.8 (brass), 0…0.6 (stainless steel) 0…2 (stainless steel) IP 67 - 40…+ 85 - 25…+ 70 Nickel plated brass or stainless steel, grade 303 PvR 3 x 0.11 mm2 or 4 x 0.08 mm2 25 gn, amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn, duration 11 ms Yellow LED, 4 viewing ports at 90° Yellow LED, annular c 5…24 for XS1 L04pppppp and XS1 N05pppppp c 12…24 for XSp L06pppppp c 5…30 for XS1 L04pppppp and XS1 N05pppppp c 10…38 for XSp L06pppppp y 10 y 100 with overload and short-circuit protection y 200 for XSp L06 with overload and short-circuit protection y2 5 y5 y 0.1 y 0.1 BK/4 (NO) BK/2 (NC) – BU/3 See connection on page 9/45. 2 3 4 5 NPN 3-wire + BN/1 PNP 1 + BN/1 NPN BK/4 (NO) BK/2 (NC) 6 – BU/3 For M8 connector, NO and NC outputs on terminal 4. Setting-up Minimum mounting distances (mm) e Face to face eu2 eu2 eu3 eu5 e e u 12 e u 12 e u 18 e u 30 Facing a metal object eu3 eu3 e e u 4.5 e u 7.5 d2 d1 x Side by side h Sensor Ø 4 Ø 5 Ø 6.5 Ø 6.5, XS2 L06pA340p d1 u 4, h u 0 d1 u 5, h u 0 d1 u 3, h u 0 d1 u 10, h u 1.6 – – – d2 u 6.5, x u 1.3 7 8 Tightening torque Stainless steel: 2.2 N.m Brass: 1.6 N.m Dimensions Sensor b a c Ø 4 Ø 5 Ø 6.5 Ø 6.5, XS2 L06pA340p Pre-cabled a b 29 29 29 29 33 30 33 27 c – – – 3 M8 connector a b 41 24 41 24 42 34 46 35 c – – – 3 M12 connector a b – – – – 45 24 49 25 c – – – 3 9 10 3/71 References Inductive proximity sensors 2 OsiSense XS Application Adjustable range sensors Cylindrical, flush mountable and non flush mountable Three-wire DC, solid-state output Ø 12, threaded M12 x 1 520030 1 Sensing distance Function Output Connection Reference Weight (Sn) mm kg 0.100 5 NO PNP Remote M12 connector XS6 12B2PAL01M12 on 0.15 m flying lead 0.100 NPN Remote M12 connector XS6 12B2NAL01M12 on 0.15 m flying lead NC 2 PNP NPN Remote M12 connector XS6 12B2PBL01M12 on 0.15 m flying lead Remote M12 connector XS6 12B2NBL01M12 on 0.15 m flying lead 0.100 0.100 XS6 ppB2ppL01M12 Ø 18, threaded M18 x 1 3 NC PNP NPN 520031 4 Sensing distance Function Output Connection Reference Weight (Sn) mm kg 0.140 9 NO PNP Remote M12 connector XS6 18B2PAL01M12 on 0.15 m flying lead 0.140 NPN Remote M12 connector XS6 18B2NAL01M12 on 0.15 m flying lead Remote M12 connector XS6 18B2PBL01M12 on 0.15 m flying lead Remote M12 connector XS6 18B2NBL01M12 on 0.15 m flying lead 0.140 0.140 Ø 30, threaded M30 x 1.5 Sensing distance Function Output Connection Reference Weight (Sn) mm kg 18 NO PNP Remote M12 connector XS6 30B2PAL01M12 0.220 on 0.15 m flying lead NPN Remote M12 connector XS6 30B2NAL01M12 0.220 on 0.15 m flying lead 5 NC XSZ BPM12 6 PNP NPN Remote M12 connector XS6 30B2PBL01M12 on 0.15 m flying lead Remote M12 connector XS6 30B2NBL01M12 on 0.15 m flying lead 0.220 Accessories (1) 825994 Description Reference Remote control fixing clamp 7 0.220 XSZ Bppp Sensor fixing clamps XSZ BPM12 Ø 12 Ø 18 Ø 30 (1) For further information, see page 3/112. 8 9 10 3/72 XSZ B112 XSZ B118 XSZ B130 Weight kg 0.015 0.006 0.010 0.020 CSA.15 m flying lead 0…5 non flush mounted / 0…3.4 flush mounted 0…9 non flush mounted / 0…6 flush mounted 3…9 non flush mounted / 3…6 flush mounted 0…18 non flush mounted / 0…11 flush mounted 6…18 non flush mounted / 6…11 flush mounted 1. amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn. setting-up..Inductive proximity sensors Characteristics.. e Remote M12 connector on 0.25…+ 70 Nickel plated brass PBT PvR .15 of effective sensing distance (Sr) IP 67.7…5 non flush mounted / 1. dimensions 2 OsiSense XS Application Adjustable range sensors Cylindrical. 3 ≤ 10 Response M12 2 ≤ 100 with overload and short-circuit protection Voltage drop. duration 11 ms Yellow LED Green LED c 12…24 with protection against reverse polarity c 10…36 V ≤2 Current consumption.Ø 4. flush mountable and non flush mountable Three-wire DC. solid-state output Characteristics Sensor type Product certifications Connection Connector Nominal sensing distance (Sn) Sensing distance and Ø 12 adjustment zone Precision adjustment zone Ø 18 Nominal sensing distance (Sn) Precision adjustment zone Ø 30 Nominal sensing distance (Sn) Precision adjustment zone Differential travel Degree of protection Conforming to IEC 60529 Storage temperature Operating temperature Materials Case Remote control Cable Vibration resistance Conforming to IEC 60068-2-6 Shock resistance Conforming to IEC 60068-2-27 Indicators Output state Supply on and teach mode Rated supply voltage Voltage limits (including ripple) Switching capacity mm mm mm mm mm mm % °C °C V V mA XS6 ppB2ppL01M12 UL.2 mm 25 gn.6 41 13 10 3/73 . closed state Wiring schemes 1 + 1 NPN 4(NO) 2(NC) 6 – 3 Minimum mounting distances (mm) 7 e e e not flush mounted 50 100 180 Face to face flush mounted e ≥ 50 e ≥ 100 e ≥ 180 Facing a metal object not flush mounted 100 200 360 8 e ≥ 3.6 42 5 60 44 8 62.40…+ 85 . i . schemes.7…3.4 e≥6 e ≥ 11 XS6 (2) (1) 20 9 M12 Dimensions Ø 12 Ø 18 Ø 30 Side by side flush mounted e ≥ 14 e ≥ 28 e ≥ 48 Ø 12 Ø 18 Ø 30 62 b c a (1) LED (2) Teach mode button Connector (mm) a b c 54.3 Recovery ms ≤ 0. no-load mA Maximum switching frequency Delays First-up Hz ms ≤ 10 1000 ms ≤ 0.7 Connector 4 3 1 2 NPN + 1 4(NO) 2(NC) PNP – 3 Setting-up 4 5 PNP See connection on page 9/45.4 flush mounted 1. 1 6 10 7 2.Inductive proximity sensors Functions. The output switching circuit of the sensor is in the closed state for Fc > Fr and the open state for Fc < Fr. belt breakage. the output of the sensor remains in the closed state. 15 turns approximately. pumps. 2-wire a or c sensors) Low speed version (6…150 impulses/minute) High speed version (120…3000 impulses/minute) Number of turns 6 15 15 12 12 9 9 Number of turns 4 Sensors XSA-V are particularly suitable for the detection of underspeed: when the speed of the moving part Fc falls below a preset threshold Fr.5 Hertz 150 Imp/min 0. the operational status of the sensor is subject to a delay of 9 seconds in order for the moving part being monitored to run-up to its nominal speed. grinders. Archemedian screws.4 Revs/s 6 3 0 2 120 0. a (3) b c b Non metallic material 5 Adjustment of frequency threshold b Adjustment of sensor’s frequency threshold: using potentiometer. slip detection. shaft overload detection Cylindrical form Example: Coupling breakage monitoring Functions These self-contained rotation speed monitoring sensors have the special feature of incorporating. principle. The impulse frequency Fc generated by the moving part to be monitored is compared to the frequency Fr preset on the sensor. The unit provides an economical solution for detecting slip. setting-up 1 0 OsiSense XS Application Sensors for rotation monitoring.5 10 600 0. centrifugal driers. h ≥ 0 50 Hertz 3000 Imp/min 0. 2 Operating principle The output signal of this type of sensor is processed by an impulse comparator incorporated in the sensor. drive shaft shear and overloading. b To decrease the frequency threshold: turn the adjustment screw anti-clockwise (–). b To increase the frequency threshold: turn the adjustment screw clockwise (+). etc. this causes the output circuit of the sensor to switch off.1 Setting-up Minimum distances (mm) Side by side 8 Face to face e e e ≥ 20 Facing a metal object 9 e ≥ 120 Mounted in a metal support e e ≥ 30 Fixing nut tightening torque: < 50 N.m 10 3/74 h d d ≥ 30.02 Revs/s . bucket elevators. mixers. the pulse sensing and processing electronics as well as the output switching amplifier that are required to establish an integrated rotation monitoring device. in the same case. in the following applications: conveyor belts. etc. 6 3 0 1 60 1 0.. crushers. Potentiometer LED Metal target Diameter of sensor a M30 4…6 mm b 30 mm c 60 mm Potentiometer adjustment curves (for XSA V1p801. During this time. - + 3 (1) (2) Note: Following power-up. 7 V ≤ 1. length 2 m (1) IP 67 Output state indication Rated supply voltage Red LED c 12…48 V with protection against reverse polarity a 24…240 V (50/60 Hz) or c 24…210 V Voltage limits (including ripple) Switching capacity c 10…58 V a or c 20…264 V ≤ 200 mA with overload and short-circuit protection ≤ 1. length 2 m (1) 5 ≤ 5. shaft overload detection Cylindrical form Flush mountable in metal 1 b a Lengths (mm): a = Overall b = Threaded section 2 DC Nominal sensing distance (Sn) 10 mm Adjustable frequency range 6…150 impulses/min DC 10 mm 120…3000 impulses/min AC/DC 10 mm 6…150 impulses/min AC/DC 10 mm 120…3000 impulses/min XSA V12373 – – XSA V11801 – XSA V12801 References 3-wire c 2-wire Weight (kg) PNP / NC c or a / NC XSA V11373 – 0. replace XSA V1 in the reference by XSA V3.25…+ 70 °C Voltage drop.300 3 Characteristics Connection Degree of protection conforming to IEC 60529 Operating zone Repeat accuracy Differential travel Operating temperature Pre-cabled. see page 3/112.5 mA 6 6000 impulses/min (for XSA V11ppp). 3 x 0.References. 2 x 0. it is essential to connect a 0. no-load ≤ 15 mA Maximum switching frequency “Run-up” delay following power-up Pre-cabled. 9 10 Accessories: page 3/112 3/75 . dimensions. Example: XSA V11373 becomes XSA V11373L05 with a 5 m long cable. slip detection. 48. For a reduced “run-up” delay of 3 s.34 mm2. closed state Residual current. replace XSA V1 in the reference by XSA V0. (2) These sensors do not incorporate overload or short-circuit protection and therefore.34 mm2. characteristics. for a 10 m long cable add L10 to the reference.8 V a 5…350 mA or c 5…200 mA (2) 4 0…8 mm 3% of Sr 3…15% of Fr . (3) For a sensor without a “run-up” delay following power-up. open state Current consumption.000 impulses/min (for XSA V12ppp) 9 seconds ± 20% + 1/Fr (3) 7 Wiring schemes 2-wire a or c XSA V1p801 3-wire c XSA V1p373 + BN PNP BK BU BN 8 BU – (1) For a 5 m long cable add L05 to the reference.4 A “quickblow” fuse in series with the load. schemes Inductive proximity sensors 0 OsiSense XS Application Sensors for rotation monitoring. Example: XSA V11801 becomes XSA V01801 without a “run-up” delay. 20%. 1/2 UNF B 8 F (1) F(1) E 4 b These inductive proximity sensors are designed for monitoring rotational speed or the speed of the flow of objects to be protected or monitored. b They provide a simple. setting-up. etc. They operate on the principle of comparing a speed threshold preset by the operator against the instantaneous measurement of the speed of the moving object to be protected. the sensor drops out on underspeed when the speed of the moving object drops below 1000 . the XS9 sensor can operate as a standard inductive sensor (Schneider Electric patent pending).3) = 700 rpm.11% and .5 . bucket elevator. Operation in inductive mode enables validation of reliable detection of all the moving Reference objects to be monitored. with teach mode 2 Operating principle and applications 1 b They are widely used in grinder/crusher. slip detection and shaft overload detection. the sensor holds its output closed for 9 seconds. belt breakage. Archimedean screw. speed Supply b Using this system.Inductive proximity sensors Principle. coupling breakage and overload. pump. u3s 5 Slow flash (1) To allow the moving object to reach its normal speed (machine inertia). economical solution for detecting slip.8 E 20 33 F 3. XS9 C e C B E D Side by side e ≥ 40 e ≥ 60 Face to face e ≥ 80 e ≥ 120 B Type XS9 E XS9 C 20 M12. mixer. centrifugal driver. 2 3 2 E 62 B A 9 (1) For CHC type screws Type A B XS9 E 14 26 14 40 XS9 C 10 3/76 C 13 15 D 8. . (2) The sensor’s default drop-out underspeed corresponds to the preset speed . .30%.(1000 x 0. the positioning is therefore made 100% reliable and can be checked at any time without altering the settings of the sensor.6% thresholds can be obtained by pressing the teach mode button.8 9. Installation and setting-up Output LED Teach mode LED Setting-up and positioning the sensor b In the positioning phase. the sensor can be reset at any time to the factory settings. Teach mode button Speed adjustment in teach mode b The normal or reference speed of the moving object (1) to be monitored is adjusted by simply pressing the teach mode button (2) and is then validated by the display LED. etc. Example: If the preset speed is 1000 rpm.5 4. type applications. v If in doubt. u7s 6 Setting-up 7 Dimensions Minimum mounting distances (mm) e XS9 E. adjustment. dimensions OsiSense XS Application Sensors for rotation monitoring. conveyor belt. 060 0. a 5…300 mA(2) y 5. amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn. see page 3/112. (2) It is essential to connect a 0.040 0.Inductive proximity sensors References. 3/77 . characteristics. open state Current consumption. duration 11 ms Yellow LED Green LED c 12…24 V c 10…36 V y 100 mA (1) y 200 mA (1) 6 7 8 2 3 4 3 See connection on page 9/45.25…+ 70 °C 25 gn. closed state Residual current.060 References PNP / NC c or a / NC 10 mm 3 Nominal sensing distance (Sn) Adjustable frequency range 15 mm Characteristics Product certifications Connection Operating zone Degree of protection Storage temperature Operating temperature Vibration resistance Shock resistance Indicators UL. with teach mode (continued) Flush mountable in metal PBT case 1 2 10 mm 15 mm 6…6000 impulses/min 3-wire 2-wire Weight (kg) XS9 E11RPBL01M12 XS9 C11RPBL01M12 – – – – XS9 E11RMBL01U20 XS9 C11RMBL01U20 0.040 0. no-load Maximum switching frequency “Run-up” delay following power-up Connector 1/2"-20UNF 4 3 1 2 5 a or c 24…240 V (50/60 Hz) a or c 20…264 V a or c 5…100 mA (2) c 5…200 mA. Accessory (1) Description Remote control fixing clamp Reference XSZ BPM12 Weight kg 0. schemes.40…+ 85 °C . e Remote M12 connector on 0. accessories 2 OsiSense XS Application Sensors for rotation monitoring.15 m flying lead 0…8 mm 0…12 mm y2V y 100 mA y 10 mA 48.015 9 10 XSZ BPM12 (1) For accessories. CSA.15 m flying lead Conforming to IEC 60529 Conforming to IEC 60068-2-6 Conforming to IEC 60068-2-27 Output state Supply on Rated supply voltage Voltage limits (including ripple) Switching capacity Voltage drop.5 mA – 3-wire c 2-wire a or c XS9 p11RPBL01M12 XS9 p11RMBL01U20 1 2 Remote 1/2"-20UNF connector on 0. Wiring schemes M12 0…8 mm 0…12 mm IP 67. double insulation i .4 A “quick-blow” fuse in series with the load.5 V y 1.000 impulses/min 9 seconds + 1/Fr (1) With overload and short-circuit protection. slip detection and shaft overload detection. 5 18 19.2 1.2 Sensor .4 4.4 3..2 8.5 3 4.6 4 4. XS1 M30AB120 Sn = 1…10 mm Is (mA) Is (mA) Ø 18 mm Ø 12 mm 0 0.5 2 2..2…2 mm 0 0.10 V (1) or 4…20 mA For position. of the sensor. .2 4 4.8…8 mm 11 10 9 8 7 6 5 4 3 2 1 0 XS4 P30AB110 Sn = 0.2 0. displacement and deformation control/monitoring Functions 1 2 0 These analogue output proximity sensors are solid-state sensors designed for monitoring displacement.5 Sensor . schemes OsiSense XS Application Sensors with analogue output signal 0.8 5.4 7.5 6 7. 2-wire connection XS1 M12AB120 Sn = 0.concentricity or eccentricity monitoring. 3/78 .5 1 1.4…4 mm 22 20 18 16 14 12 10 8 6 4 2 0 XS1 M18AB120 Sn = 0.6 2 2.6 6.8 5.5 Sensor .5 5 5.4 4.8 2 2.8 1 1.6 10.0.5 12 13. (1) Voltage range only obtained with a load impedance of 1000 W.object distance (mm) 22 20 18 16 14 2 10 8 6 4 2 0 4 5 6 7 8 9 10 11 12 13 Sensor .2 3.6 2.4 9.4 3. . particularly for applications involving: .deformation and displacement monitoring. . .4 0.2 Sensor .8 5.4 7.2 1.control of dimensional tolerances.5 3 3.5…5 mm Is (mA) 5 Is (mA) 4 22 20 18 16 14 12 10 8 6 4 2 0 Ø 12 mm Is (mA) 3 Output curves 4.5…15 mm Ø 18 mm 0 0.2 8 8.. The sensor will sense the distance and produce an output current with a value directly proportional to this distance.4 0.4 2.object distance (mm) Output curves 0.2 8 8.5 6 7.Is - Load impedance Output current Load impedance Output voltage Load impedance value value value 12 V 4…20 mA 24 V 0…10 mA 0…10 V R y 8.2 W R y 1500 W R = 1000 W 24 V 4…20 mA 48 V 0…10 mA 0…10 V R y 470 W R y 3300 W R = 1000 W Ensure a minimum of 10 V between the + and the .2 4 4.6 6.6 0.. 3-wire connection XS4 P18AB110 Sn = 0. principle.5 9 10.2 2.4 2.4 Sensor .5…15 mm Ø 18 mm Is (mA) 6 22 20 18 16 14 2 10 8 6 4 2 0 0 0.5 9 10.2 1. They are not measuring sensors.8 3.10 V.4 0.5 4 4.6 4 4.object distance (mm) XS4 P18AB120 Sn = 0.8 1.6 2 2.20 mA.vibration amplitude and frequency monitoring.object distance (mm) XS4 P12AB120 Sn = 0.object distance (mm) Wiring schemes 2-wire connection mA 9 3-wire connection BN/1 + BK/4 R BU/3 Is Output current 10 mA BN/1 BK/4 Output current - BU/3 + Is Voltage output R Us = R. curves.4 2.5 12 13.8…8 mm 22 20 18 16 14 12 10 8 6 4 2 0 0 0.8 5. The degree of damping will depend on the distance of an object from the sensing face.object distance (mm) 11 10 9 8 7 6 5 4 3 2 1 0 Ø 30 mm Is (V) Is (V) 8 11 10 9 8 7 6 5 4 3 2 1 0 Ø 12 mm Is (V) 7 XS4 P12AB110 Sn = 0.6 1.8 3.position control.8 1.8 9.1.4 1.6 Sensor . They are suitable for use in many sectors.8 1.4…4 mm 0 0.5 18 19.5 3 4.2 Sensor .5 15 16.object distance (mm) 0 1..5 Sensor .object distance (mm) Ø 30 mm 0 1.8 1.5 6 6.(terminal 3) Ensure a minimum of 5 V between the + and the sensor output (terminal 4).object distance (mm) 22 20 18 16 14 2 10 8 6 4 2 0 0 1 2 Ø 30 mm 3 XS4 P30AB120 Sn = 1. Example: Sorting parts Operating principle The operating principle of the sensor is that of a damped oscillator.2 3.6 2.5 15 16.Inductive proximity sensors Functions. 065 0. 10 Functions: page 3/78 3/79 . characteristics..24 V c 12. h ≥ 0 d ≥ 36. length 2 m Degree of protection Conforming to IEC 60529 IP 67 Operating zone 0.Inductive proximity sensors References.m (plastic case) Please consult our Customer Care Centre. < 2 N.. (2) Output current range Is.10 V (1) or 4…20 mA For position. no-load 4 mA Maximum operating rate 1500 Hz 0. see page 3/78.. displacement and deformation control/monitoring Sensor Flush mountable in metal Non flush mountable in metal 1 b a Lengths (mm): a = Overall b = Threaded section a = 50 b = 42 Nominal sensing distance (Sn) a = 50 b = 42 2 a = 50 b = 42 Metal case 2 mm Plastic case 4 mm Plastic case 4 mm 3 References 3-wire c Output 0…10 V (2) – – XS4 P12AB110 2-wire c Output 4…20 mA (2) XS1 M12AB120 XS4 P12AB120 – 0.4…4 mm 5 0.25…+ 70 °C Rated supply voltage c 12. setting-up 0 OsiSense XS Application Sensors with analogue output signal 0.4…4 mm ±1V 6 7 (1) Voltage range only obtained with a load impedance of 1000 W.. Setting-up Minimum mounting distances (mm) Side by side Face to face Facing a metal object Mounted in a metal support e e h d 8 e 9 e≥4 XS1 M12AB120 flush mountable XS4 P12AB110 non flush mountable e ≥ 16 XS4 P12AB120 non flush mountable e ≥ 16 Fixing nut tightening torque Other versions Accessories: page 3/112 e ≥ 24 e ≥ 48 e ≥ 48 e≥6 e ≥ 12 e ≥ 12 d ≥ 12. h ≥ 8 < 6 N.m (metal case).2…2 mm Repeat accuracy ± 3% Linearity error ± 2 mA Ambient air temperature For operation: .065 Weight (kg) 4 Characteristics Product certifications e..075 0..24 V c 24…48 V Voltage limits (including ripple) c 10…36 V c 10…36 V c 15…58 V Output current drift Ambient temperature: .25…+ 70 °C ≤ 10% Current consumption. h ≥ 8 d ≥ 36.34 mm2. PvR 3 x 0. CSA Connection Pre-cabled. UL. < 5 N.080 0. no-load 4 mA Maximum operating rate 500 Hz 0.m (plastic case) Please consult our Customer Care Centre. h ≥ 16 .5…5 mm Repeat accuracy ± 3% Linearity error ± 2 mA Ambient air temperature For operation: . UL.8…8 mm 0.Inductive proximity sensors References.8…8 mm ±1V (1) Voltage range only obtained with a load impedance of 1000 W. CSA Connection Pre-cabled.6 b = 26 c=8 Plastic case 8 mm References 3-wire c Output 0…10 V (2) – – XS4 P18AB110 2-wire c Output 4…20 mA (2) XS1 M18AB120 XS4 P18AB120 – 0. see page 3/78... setting-up Sensor 0 OsiSense Application Sensors with analogue output signal 0.m (metal case).6 b = 26 c=8 Plastic case 8 mm a = 40. PvR 3 x 0.24 V c 24…48 V Voltage limits (including ripple) c 10…36 V c 10…36 V c 15…58 V Output current drift Ambient temperature: . Side by side Face to face Facing a metal object Mounted in a metal support d e e h 8 Setting-up Minimum mounting distances (mm) e 9 10 e ≥ 10 XS1 M18AB120 flush mountable XS4 P18AB110 non flush mountable e ≥ 32 XS4 P18AB120 non flush mountable e ≥ 32 Fixing nut tightening torque Other versions Accessories: page 3/112 3/80 e ≥ 60 e ≥ 96 e ≥ 96 < 15 N. h ≥ 16 d ≥ 54.25…+ 70 °C Rated supply voltage c 12.24 V c 12. Schemes: page 3/78 e ≥ 15 e ≥ 24 e ≥ 24 d ≥ 18.34 mm2. (2) Output current range Is.080 Weight (kg) 4 a = 52.5 b = 44 c=0 Metal case 5 mm Characteristics Product certifications e.10 V (1) or 4…20 mA Flush mountable in metal Non flush mountable in metal 1 b c a 2 Lengths (mm): a = Overall b = Threaded section c = For non flush mountable sensors Nominal sensing distance (Sn) 3 5 6 7 a = 40. h ≥ 0 d ≥ 54.120 0... characteristics.25…+ 70 °C ≤ 10% Current consumption... length 2 m Degree of protection Conforming to IEC 60529 IP 67 Operating zone 0. (2) Output current range Is. h ≥ 0 d ≥ 90. Setting-up Minimum mounting distances (mm) Side by side Face to face Facing a metal object Mounted in a metal support e e 8 h d e e ≥ 20 XS1 M30AB120 flush mountable XS4 P30AB110 non flush mountable e ≥ 60 XS4 P30AB120 non flush mountable e ≥ 60 Fixing nut tightening torque Other versions Accessories: page 3/112 e ≥ 120 e ≥ 180 e ≥ 180 e ≥ 30 e ≥ 45 e ≥ 45 9 d ≥ 30. UL. setting-up (continued) Sensor 0 OsiSense Application Sensors with analogue output signal 0.5…15 mm 5 1.. see page 3/78. characteristics. h ≥ 30 < 40 N.m (metal case).10 V (1) or 4…20 mA Flush mountable in metal Non flush mountable in metal 1 b c a Lengths (mm): a = Overall b = Threaded section c = For non flush mountable sensors Nominal sensing distance (Sn) a = 50 b = 42 c=0 Metal case 10 mm a = 52.25…+ 70 °C ≤ 10% Current consumption. no-load 4 mA Maximum operating rate 300 Hz 1.200 0.24 V c 12.6 b = 32 c = 13 Plastic case 15 mm 2 a = 52. < 20 N. CSA Connection Pre-cabled.. PvR 3 x 0.100 0..100 Weight (kg) 4 Characteristics Product certifications e.24 V c 24…48 V Voltage limits (including ripple) c 10…36 V c 10…36 V c 15…58 V Output current drift Ambient temperature: .m (plastic case) Please consult our Customer Care Centre.25…+ 70 °C Rated supply voltage c 12.5…15 mm ±1V 6 7 (1) Voltage range only obtained with a load impedance of 1000 W. h ≥ 30 d ≥ 90.. 10 Schemes: page 3/78 3/81 .. length 2 m Degree of protection Conforming to IEC 60529 IP 67 Operating zone 1…10 mm Repeat accuracy ± 3% Linearity error ± 2 mA Ambient air temperature For operation: ..Inductive proximity sensors References.34 mm2.6 b = 32 c = 13 Plastic case 15 mm 3 References 3-wire c Output 0…10 V (2) – – XS4 P30AB110 2-wire c Output 4…20 mA (2) XS1 M30AB120 XS4 P30AB120 – 0. The degree of damping will depend on the distance of an object from the sensing face. 3 Output curves 0…10 V. 2 Operating principle The operating principle of the sensor is that of a damped oscillator. v concentricity or eccentricity monitoring. particularly for applications involving: v deformation and displacement monitoring. v vibration amplitude and frequency monitoring. 3-wire connection XS9 F 5 11 10 9 8 7 6 5 4 3 2 1 0 0 1 2. schemes OsiSense XS Application 2 Sensors with analogue output signal 0…10 V (1) For position. displacement and deformation control/monitoring Functions 1 These analogue output proximity sensors are solid-state sensors designed for monitoring displacement.object distance (mm) Connector M8 4 1 M12 4 3 3 1 Pre-cabled BN: Brown BU: Blue BK: Black 2 See connection on page 9/45.Inductive proximity sensors Functions. The sensor will sense the distance and produce an output current with a value directly proportional to this distance. They are not measuring sensors. v control of dimensional tolerances.5 5 6 Sensor . 2 . curves.object distance (mm) Us (V) 11 10 9 8 7 6 5 4 3 2 1 0 11 10 9 8 7 6 5 4 3 2 1 0 XS9 D Sn = 2…15 mm Us (V) 6 XS9 E Sn = 1…10 mm Us (V) Us (V) 4 Sn = 1…5 mm 11 10 9 8 7 6 5 4 3 2 1 0 0 5 20 40 45 Sensor . They are suitable for use in many sectors. 9 (1) Voltage range only obtained with a load impedance of 1000 W. 10 3/82 5 10 12 Sn = 5…40 mm Wiring schemes 8 0 1 Sensor . principle. v position control.object distance (mm) 3-wire connection BN/1 mA BK/4 BU/3 + Is R Voltage output — Us=R.object distance (mm) XS9 C 7 0 2 8 15 18 Sensor .Is Output Load impedance Output Load impedance current value voltage value 24 V 0…10 mA 0…10 V R y 1400 W R = 1000 W Note: Ensure a minimum of 5 V between the + (terminal 1) and the sensor output (terminal 4). 5 5. CSA. displacement and deformation control/monitoring Flush mountable in metal PBT case 1 2 Nominal sensing distance (Sn) 5 mm 10 mm 15 mm 40 mm 3-wire c 0…10 V Pre-cabled (L = 2 m) (2) XS9 F111A1L2 XS9 E111A1L2 XS9 C111A1L2 XS9 D111A1L2 Connector XS9 F111A1L01M8 XS9 E111A1L01M12 XS9 C111A1L01M12 XS9 D111A1M12 Weight (kg) Pre-cabled (L = 2 m) (2) 0.15 m flying lead with M12 connector M8 connector 1…5 mm 1…10 mm 2…15 mm IP 68 IP 68.40…+ 85 °C .055 0. double insulation i IP 67 IP 67.8 16 E 20 33 65 F 3. setting-up 2 OsiSense XS Application 2 Sensors with analogue output signal 0…10 V (1) For position. amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn.075 0. Accessories: page 3/112 3/83 10 . double insulation i .320 References 3 Characteristics Product certifications Connection Operating zone Degree of protection Conforming to IEC 60529 Pre-cabled Connector Pre-cabled Connector Storage temperature Operating temperature Materials Vibration resistance Conforming to IEC 60068-2-6 Shock resistance Conforming to IEC 60068-2-27 Output state indication Rated supply voltage Voltage limits (including ripple) Repeat accuracy Linearity error Current consumption.Inductive proximity sensors References. for a 10 m long cable replace L2 by L10.25…+ 70 °C PBT case 25 gn.5 4.060 0. no-load Maximum operating frequency Output current drift Dimensions XS9 F XS9 E/C/D XS9 C/D C 15 9 M12 4 5…40 mm 5 6 100 Hz XS9 E B D 7 F (2) E F (2) E B 32 B 8 UL. (2) For a 5 m long cable replace L2 by L5. characteristics. Example: XS9 C111A1L2 becomes XS9 C111A1L5 with a 5 m long cable.8 9.34 mm2.075 0. e PvR 3 x 0. dimensions.340 Connector 0.040 0.15 m flying lead with 0. length 2 m for XS9 p111ApL2 0.5 Face to face e ≥ 15 e ≥ 30 e ≥ 45 e ≥ 120 e e ≥ 36 e ≥ 72 e ≥ 110 e ≥ 300 9 Facing a metal object e ≥ 15 e e ≥ 30 e ≥ 45 e ≥ 120 (1) Voltage range only obtained with a load impedance of 1000 W.095 0. duration 11 ms No c 24 V c 15…36 V ± 3% ±1V y 4 mA with overload and short-circuit protection 2000 Hz 1000 Hz y 10% (throughout the operating temperature range) 8 A E B (2) For CHC type screws Type XS9 E XS9 C XS9 D Setting-up (Minimum mounting distances (mm)) Type XS9 F XS9 E XS9 C XS9 D A (L2) 14 14 23 A (M12) – – 14 B 26 40 80 C 13 15 26 Side by side e D 8. object distance (mm) 2 Wiring schemes 8 Connector M8 4 1 M12 4 3 3 1 2 See connection on page 9/45.object distance (mm) 2-wire connection mA BN/1 + BK/4 Output current R BU/3 Is – Output Load impedance current value 12 V 4…20 mA R y 8.object distance (mm) XS9 C 7 0 18 8 15 Sensor . 2-wire connection XS9 F 5 22 20 18 16 14 12 10 8 6 4 2 0 0 1 2.Inductive proximity sensors Functions. 3 Output curves 4…20 mA. particularly for applications involving: v deformation and displacement monitoring.(terminal 3) of the sensor. v control of dimensional tolerances. principle. They are suitable for use in many sectors. 9 0 1 5 10 13 Sensor . schemes OsiSense XS Application 2 Sensors with analogue output signal 4…20 mA For position. v concentricity or eccentricity monitoring.5 5 6 Sensor . curves.object distance (mm) Sn = 5…40 mm Is (mA) 22 20 18 16 14 12 10 8 6 4 2 0 22 20 18 16 14 12 10 8 6 4 2 0 XS9 D Sn = 2…15 mm Is (mA) 6 XS9 E Sn = 1…10 mm Is (mA) Is (mA) 4 Sn = 1…5 mm Pre-cabled BN: Brown BU: Blue BK: Black 22 20 18 16 14 12 10 8 6 4 2 0 0 5 20 40 45 Sensor . 2 Operating principle The operating principle of the sensor is that of a damped oscillator. They are not measuring sensors. 10 3/84 2 . v vibration amplitude and frequency monitoring. The sensor will sense the distance and produce an output current with a value directly proportional to this distance. displacement and deformation control/monitoring Functions 1 These analogue output proximity sensors are solid-state sensors designed for monitoring displacement. The degree of damping will depend on the distance of an object from the sensing face.2 W 24 V 4…20 mA R y 470 W Note: Ensure a minimum of 10 V between the + (terminal 1) and . v position control. double insulation i IP 67 IP 67. duration 11 ms No c 12…24 V c 10…36 V ± 3% ± 2 mA y 4 mA with overload and short-circuit protection 2000 Hz 1000 Hz y 10% (throughout the operating temperature range) 3 8 A E B (1) For CHC type screws Type XS9 E XS9 C XS9 D Setting-up (Minimum mounting distances (mm)) Type XS9 F XS9 E XS9 C XS9 D A (L2) 14 14 23 A (M12) – – 14 B 26 40 80 Side by side e C 13 15 26 D 8.5 5. amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn.055 XS9 C111A2L01M12 0.34 mm2.075 0. CSA.15 m flying lead with M12 connector M8 connector 1…5 mm 1…10 mm 2…15 mm IP 68 IP 68. for a 10 m long cable replace L2 by L10.320 References Weight (kg) Pre-cabled (L = 2 m) Connector Characteristics Product certifications Connection Operating zone Degree of protection Conforming to IEC 60529 Pre-cabled Connector Pre-cabled Connector Storage temperature Operating temperature Materials Vibration resistance Conforming to IEC 60068-2-6 Shock resistance Conforming to IEC 60068-2-27 Output state indication Rated supply voltage Voltage limits (including ripple) Repeat accuracy Linearity error Current consumption. dimensions. length 2 m for XS9 p111ApL2 0. setting-up 2 OsiSense XS Application 2 Sensors with analogue output signal 4…20 mA For position.8 16 E 20 33 65 Face to face e ≥ 15 e ≥ 30 e ≥ 45 e ≥ 120 e e ≥ 36 e ≥ 72 e ≥ 110 e ≥ 300 F 3. Example: XS9 F111A2L2 becomes XS9 F111A2L5 with a 5 m long cable.075 XS9 D111A2M12 0.8 9.340 0.5 4. displacement and deformation control/monitoring Flush mountable in metal PBT case 1 2 Nominal sensing distance (Sn) 5 mm 10 mm 15 mm 40 mm 2-wire c 4…20 mA Pre-cabled (L = 2 m) (1) XS9 F111A2L2 XS9 E111A2L2 XS9 C111A2L2 XS9 D111A2L2 Connector XS9 F111A2L01M8 0.040 XS9 E111A2L01M12 0.25…+ 70 °C PBT case 25 gn. Accessories: page 3/112 3/85 10 .5 9 Facing a metal object e ≥ 15 e ≥ 30 e e ≥ 45 e ≥ 120 (1) For a 5 m long cable replace L2 by L5.40…+ 85 °C . characteristics.Inductive proximity sensors References.15 m flying lead with 0. no-load Maximum operating frequency Output current drift Dimensions XS9 F XS9 E/C/D XS9 C/D C 15 9 M12 4 5…40 mm 5 6 100 Hz XS9 E B D 7 F (1) E F (1) E B 32 B 8 UL.060 0. double insulation i .095 0. e PvR 3 x 0. 120 0. threaded M18 x 1 Sensing distance Function (Sn) mm 12 NO Output Connection PNP Pre-cabled (L = 2 m) XS2 18SAPAL2 (1) M12 connector XS2 18SAPAM12 XS2 ppSAppM12 534440 3 Output NPN Reference Pre-cabled (L = 2 m) XS2 18SANAL2 (1) M12 connector XS2 18SANAM12 Weight kg 0.060 0.210 0. threaded M12 x 1 Sensing distance Function (Sn) mm 7 NO 2 DF532015 XS2 ppSAppL2 Connection PNP Pre-cabled (L = 2 m) XS2 12SAPAL2 (1) M12 connector XS2 12SAPAM12 NPN Reference Pre-cabled (L = 2 m) XS2 12SANAL2 (1) M12 connector XS2 12SANAM12 Weight kg 0.145 For use with Ø 18 sensor.410 Elbowed 2 5 10 XZC PA1241L2 XZC PA1241L5 XZC PA1241L10 0.090 0.5 XUZ B2005 523363 6 503663 XS2 30SAppL2 Reference M12 jumper cable Male. plain 4 Sensing distance Function (Sn) mm 12 NO Output Connection PNP Pre-cabled (L = 2 m) XS2 L2SAPAL2 (1) M12 connector XS2 L2SAPAM12 822116 XS2 L2SAppL2 NPN 5 Sensing distance Function (Sn) mm 22 NO Output Connection PNP Pre-cabled (L = 2 m) XS2 30SAPAL2 (1) M12 connector XS2 30SAPAM12 NPN Description Plastic fixing clamp.205 0. threaded M30 x 1. 3-pin. Example: XS2 12SAPAL2 becomes XS2 12SAPAL5 with a 5 m long cable. stainless steel.200 XSZ BS12 805817 Connecting cables (2) Description XUZ A118 Pre-wired M12 connectors Female.210 0.075 0.120 Ø 30. food and beverage processing series Cylindrical. with locking screw Stainless steel fixing bracket 0.060 Ø 18.060 0.075 0.1 mm centres.References 2 Inductive proximity sensors 2 OsiSense XS Application.120 0. for a 10 m long cable replace L2 by L10. stainless steel clamping ring 523364 9 0.095 0.060 Reference Pre-cabled (L = 2 m) XS2 30SANAL2 (1) M12 connector XS2 30SANAM12 Weight kg 0.035 Ø 18.410 Straight XZC RA151140A2 XZC RA151140A5 0.205 0.035 0. 4-pin.007 Ø 12 sensor Ø 18 sensor Ø 30 sensor XSZ BS12 XUZ A118 XSZ BS30 0. see page 3/112.090 0. plain case Reference XUZ B2005 Weight kg 0.120 0. (2) For further information. 24.145 0. non flush mountable Three-wire DC. . stainless steel clamping ring 10 XSZ BS30 3/86 Type Straight 2 5 (1) For a 5 m long cable replace L2 by L5. solid-state output DF532016 1 Ø 12.060 Accessories 7 8 Pre-cabled (L = 2 m) XS2 L2SANAL2 (1) M12 connector XS2 L2SANAM12 Weight kg 0.045 0.080 Length m 2 5 10 Reference XZC PA1141L2 XZC PA1141L5 XZC PA1141L10 Weight kg 0. 6 % 1. closed state Current consumption. amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn...2 2. grade 316 L – Non-poisonous PVC.1 28 = 25. food and beverage processing series 2 Cylindrical.92 = 8 44.35 1 6.5 41 38. e M12 – – Length: 2 m mm 0…5.2 Ø 12.15 of effective sensing distance (Sr) IP 67 IP 68.2 2. y 0. non flush mountable Three-wire DC.7 3/87 .6 mm 0…9.7 Ø 18. stainless steel.5 Connector (mm) a b 61 37 70 42 70 36 Ø12. y 0.5 a XS2 Ø 12 Ø 18 Ø 30 Facing a metal object e u 21 e u 36 e u 66 60.34 mm2 25 gn. BK/4 (NO) – BU/3 + BN/1 NPN BK/4 (NO) 6 – BU/3 See connection on page 9/45 Setting-up Minimum mounting distances (mm) 3 Sn Dimensions XS2 Side by side e u 48 e u 72 e u 120 Face to face e u 84 e u 144 e u 264 XSZ BS12 XUZ A118 (1) XSZ BS30 5.3 Ø 18.45 3.6 mm 0…17. double insulation i IP 69K °C .6 11.9 c Ø Ø18.36 28.6 10 = Pre-cabled (mm) a b 54. duration 11 ms Yellow LED: 4 viewing ports at 90° Yellow LED: annular V c 12…24 with protection against reverse polarity V c 10…36 mA y 200 with overload and short-circuit protection V y2 mA y 10 Hz 2500 Hz 1000 Hz 500 ms y 10 ms y 0. CSA.10 50 22. y 0.2 Ø 12.33 Ø 12 Ø 18 Ø 30 Object to be detected b 7 e e Metal Metal e 6.18 35 7. setting-up. schemes. no-load XS2 12SApppp Maximum switching frequency XS2 18SApppp and XS2 L2pppp XS2 30SApppp Delays First-up Response Recovery Wiring schemes Connector M12 4 1 Pre-cabled 3 PNP 1 2 3 4 5 NPN + BN/1 PNP BU: Blue BN: Brown BK: Black 2 XS2ppSAppM12 XS2ppSAppL2 UL.5 20 Ø: 2 elongated holes Ø 4.4 Ø 30 (1) + 100 °C for cleaning and sterilization phases whilst not in service.40…+ 85 (1) °C .5 = c 5 8 13 9 15 16. y 1. solid-state output Characteristics Sensor type Product certifications/approvals Connection Connector Pre-cabled Ø 12 Operating zone Ø 18 Ø 30 Differential travel Degree of protection Conforming to IEC 60529 DIN 40050 Storage temperature Operating temperature Materials Case Cable Vibration resistance Conforming to IEC 60068-2-6 Shock resistance Conforming to IEC 60068-2-27 Output state indication Rated supply voltage Voltage limits (including ripple) Switching capacity Voltage drop.4 Ø32.4 30.5 38 60 40 62.25…+ 85 Stainless steel.6 Ø 30 ms y 0. 3 x 0.54 6. dimensions 2 OsiSense XS Application.Inductive proximity sensors Characteristics.5 2.3 10 (1) LED 7.8 x 12. 060 Connecting cables (2) 4 5 Weight kg 0.145 XZC PA1865L5 Weight kg 0. Example: XS2 18SAMAL2 becomes XS2 18SAMAL5 with a 5 m long cable. threaded M30 x 1. see page 3/112.205 1/2"-20UNF connector XS2 30SAMAU20 Length m 5 Reference 10 XZC PA1865L10 0. non flush mountable Two-wire AC or DC 523361 Ø 18.120 Ø 30. food and beverage processing series Cylindrical.410 5 XZC PA1965L5 0. stainless steel clamping ring Type Straight Elbowed XS2 30SAMpL2 Weight kg 0.080 0. 523364 6 0. stainless steel. threaded M18 x 1 Sensing distance (Sn) mm 12 1 Function Connection NO Pre-cabled (L = 2 m) XS2 18SAMAL2 (1) 1/2"-20UNF connector XS2 18SAMAU20 Function Connection Reference NO Pre-cabled (L = 2 m) XS2 30SAMAL2 (1) XS2 18SAMpL2 3 Sensing distance (Sn) mm 22 XS2 18SAMpU20 523218 Description Pre-wired connectors 1/2"-20UNF 3-pin female.485 For use with Ø 18 sensor Reference XUZ A118 Weight kg 0.5 523362 2 Reference 7 XSZ BS30 8 9 10 3/88 .045 Ø 30 sensor XSZ BS30 0. (2) For further information.210 805817 Accessories Description Stainless steel fixing bracket XUZ A118 (1) For a 5 m long cable replace L2 by L5.References 2 Inductive proximity sensors 2 OsiSense Application. for a 10 m long cable replace L2 by L10.250 10 XZC PA1965L10 0. 5 BN/2 /1 See connection on page 9/45 BU/3 6 t: on connector models only Setting-up Minimum mounting distances (mm) 3 Sn e e 7 Ø 18 Ø 30 Object to be detected Dimensions XS2 Side by side e u 72 e u 120 Face to face e u 144 e u 264 XSZ A118 (1) Ø18.5 41 8 XSZ BS30 2.2 3.5 XS2 18SAMppp..35 15 c 8 13 Ø32.10 Pre-cabled (mm) a b 60 40 62. y 2 XS2 30SAMppp (1) + 100 °C for cleaning and sterilization phases whilst not in service. dimensions 2 OsiSense Application.36 3/89 .5 1 10 XS2 Ø 18 Ø 30 Connector (mm) a b 72 44 74 40 9 Ø 28.15 of effective sensing distance (Sr) IP 67 IP 69K .36 6. duration 11 ms Yellow LED: 4 viewing ports at 90° a or c 24…240 (a 50/60 Hz) a or c 20…264 a 5…300 or c 5…200 (2) y 5.5 20 Ø: 2 elongated holes Ø 7. 4 5 2-wire a or c NO output BU: Blue BN: Brown AC/DC: 2 t :1 AC/DC: 3 XS2ppSAMpU20 UL.5 = 10 = 16. amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn.17..54 6.33 Metal Metal e 6. schemes.5 b Facing a metal object e u 36 e u 66 60.14 x 29. (2) It is essential to connect a 0.8 Hz a 25 or c 1000 Hz a 25 or c 300 ms y 30 ms y 0.25…+ 85 Stainless steel.40…+ 85 (1) .5 ms y 0. double insulation i Non-poisonous PVC..92 = (1) LED 2. food and beverage processing series 2 Cylindrical.Inductive proximity sensors Characteristics. setting-up.6 1.. 2 x 0.6 0. grade 316 L – 25 gn. stainless steel. open state XS2 18SAMppp XS2 30SAMppp First-up Response Recovery Maximum switching frequency Delays Wiring schemes Connector Pre-cabled 1/2”-20UNF 1 2 3 mm mm % °C °C V V mA V mA XS2ppSAMpL2 1 – Length: 2 m 2 IP 68. e 1/2"-20UNF – 0…9. CSA.4 A “quick-blow” fuse in series with the load. closed state Residual current.34 mm2 3 Yellow LED: annular y 0.6 44. non flush mountable Two-wire AC or DC Characteristics Sensor type Product certifications/approvals Connection Connector Pre-cabled Operating zone Ø 18 Ø 30 Differential travel Degree of protection Conforming to IEC 60529 DIN 40050 Storage temperature Operating temperature Materials Case Cable Vibration resistance Conforming to IEC 60068-2-6 Shock resistance Conforming to IEC 60068-2-27 Output state indication Rated supply voltage Voltage limits (including ripple) Switching capacity Voltage drop.45 38.18 50 35 c a 28 = 7. 370 2 XZC PA1241L2 0.References 2 Inductive proximity sensors 2 OsiSense Application. stainless steel clamping ring Straight Length m 2 XZC PA1141L2 Weight kg 0.140 0. threaded M12 x 1 DF535159 1 Sensing distance Function Output (Sn) mm 7 NO PNP NPN XS2 ppAAppL2 2 Connection Reference Pre-cabled (L = 2 m) XS2 12AAPAL2 (1) M12 connector XS2 12AAPAM12 Pre-cabled (L = 2 m) XS2 12AANAL2 (1) M12 connector XS2 12AANAM12 Weight kg 0. solid-state output Ø 12.030 0.006 Ø 18 XSZ B118 0.190 (1) For a 5 m long cable replace L2 by L5. 10 3/90 . for a 10 m long cable replace L2 by L10.020 Reference Connecting cables Description Pre-wired M12 connectors Female. 4-pin.030 Ø 18.040 0.090 5 XZC PA1141L5 0.080 0.040 Ø 30. threaded M18 x 1 801167 Sensing distance Function Output (Sn) mm 12 NO PNP 3 NPN XS2 ppAAppM12 4 Connection Reference Pre-cabled (L = 2 m) XS2 18AAPAL2 (1) M12 connector XS2 18AAPAM12 Pre-cabled (L = 2 m) XS2 18AANAL2 (1) M12 connector XS2 18AANAM12 Weight kg 0. Example: XS2 12AAPAL2 becomes XS2 12AAPAL5 with a 5 m long cable. stainless steel clamping ring 8 Type Straight Elbowed 9 M12 jumper cable Male. 3-pin.080 Accessories (2) Description 6 7 Fixing clamps XSZ Bppp Reference Ø 12 XSZ B112 Weight kg 0.065 0.370 2 XZC RA151140A2 0.190 10 XZC PA1241L10 0. (2) For further information.090 5 XZC PA1241L5 0. see page 3/112.100 0.190 10 XZC PA1141L10 0. food and beverage processing series Cylindrical.010 Ø 30 XSZ B130 0. plastic. threaded M30 x 1.100 0.5 DF535161 Sensing distance Function Output (Sn) mm 22 NO PNP 5 NPN XS2 30AAppL2 Connection Reference Pre-cabled (L = 2 m) XS2 30AAPAL2 (1) M12 connector XS2 30AAPAM12 Pre-cabled (L = 2 m) XS2 30AANAL2 (1) M12 connector XS2 30AANAM12 Weight kg 0.090 5 XZC RA151140A5 0.140 0. non flush mountable Three-wire DC.065 0. y 0. CSA.Inductive proximity sensors Characteristics.6 Ø 30 y 0.25…+ 85 °C Switching capacity Voltage drop.25…+ 85 PPS – 25 gn.7 Ø 18.2 Ø 12. schemes.34 mm2 Yellow LED: annular c 12…48 for T . y 1. Setting-up 7 Minimum mounting distances (mm) 3 Sn Object to be detected Dimensions b a e e Metal Metal e Ø 12 Ø 18 Ø 30 Side by side e u 48 e u 72 e u 120 Face to face e u 84 e u 144 e u 264 Facing a metal object e u 21 e u 36 e u 66 XS2 XS2 Ø 12 Ø 18 Ø 30 Pre-cabled (mm) a b 50 42 60 51 60 51 8 9 Connector (mm) a b 61 43 70 52 70 52 10 3/91 . amplitude ± 2 mm (f = 10 to 55 Hz) 50 gn.4 Ø 30 XS2 12AApppp XS2 18AApppp XS2 30AApppp First-up Response Recovery Delays Wiring schemes Connector M12 4 1 Pre-cabled PNP 2 3 4 5 NPN + BN/1 PNP BU: Blue BN: Brown BK: Black 3 2 IP 68.25…+ 85 °C Voltage limits (including ripple) V c 10…58 for T .6 0…9. e M12 – 0…5. solid-state output Characteristics Sensor type Product certifications/approvals Connection Connector Pre-cabled Operating zone Ø 12 Ø 18 Ø 30 Differential travel Degree of protection mm mm mm % Conforming to IEC 60529 DIN 40050 Storage temperature Operating temperature Materials °C °C Case Cable Conforming to IEC 60068-2-6 Conforming to IEC 60068-2-27 Vibration resistance Shock resistance Output state indication Rated supply voltage XS2ppAAppM12 UL.3 Ø 18. non flush mountable Three-wire DC. plastic.. y 0.40…+ 85 . setting-up.6 0…17. food and beverage processing series 2 Cylindrical.2 Ø 12. dimensions 2 OsiSense Application. double insulation i V Maximum switching frequency 1 – Length: 2 m BK/4 (NO) – BU/3 6 + BN/1 NPN BK/4 (NO) – BU/3 See connection on page 9/45. y 0.6 XS2ppAAppL2 1. duration 11 ms PvR and 3 x 0. closed state Current consumption. no-load mA V mA y 200 with overload and short-circuit protection y2 y 10 Hz Hz Hz ms ms ms 2500 1000 500 y 10 y 0.15 of effective sensing distance (Sr) IP 67 IP 69K .. 020 Length m 5 Reference Weight kg 0.140 0.180 10 XZC PA1965L10 0. 8 9 10 3/92 .5 523382 2 Reference Sensing distance (Sn) mm 22 1/2"-20UNF connector XS2 ppAAMpU20 XS2 30AAMAU20 Weight kg 0. plastic. (2) For further information. stainless steel 316 L clamping ring 6 Elbowed XSZ B1pp 7 (1) For a 5 m long cable replace L2 by L5. threaded M18 x 1 Sensing distance (Sn) mm 12 1 Function Connection NO Pre-cabled (L = 2 m) XS2 18AAMAL2 (1) 1/2"-20UNF connector XS2 18AAMAU20 Function Connection Reference NO Pre-cabled (L = 2 m) XS2 30AAMAL2 (1) XS2 ppAAMpL2 3 Weight kg 0. threaded M30 x 1. food and beverage processing series Cylindrical.350 5 XZC PA1965L5 0.References 2 Inductive proximity sensors 2 OsiSense XS Application.180 10 XZC PA1865L10 0. non flush mountable Two-wire AC or DC 535156 Ø 18.350 Connecting cables Description 5 Reference Type XZC PA1865L5 825994 Pre-wired connectors Straight 1/2"-20UNF 3-pin female.100 0.010 Ø 30 XSZ B130 0. see page 3/112.080 Accessories (2) 535158 Description Fixing clamps 4 XS2 30AAMpL2 Ø 18 XSZ B118 Weight kg 0. for a 10 m long cable replace L2 by L10. Example: XS2 18AAMAL2 becomes XS2 18AAMAL5 with a 5 m long cable.040 Ø 30. double insulation i Storage temperature Materials 1 2-wire a or c NO output BU: Blue BN: Brown 6 BN/2 3 BU/3 See connection on page 9/45.17. duration 11 ms Output state indication PvR and 2 x 0.5 Residual current. y 2 XS2 30AAMppp (1) It is essential to connect a 0. dimensions 2 OsiSense XS Application. food and beverage processing series 2 Cylindrical. closed state V y 5. schemes.6 % 1..15 of effective sensing distance (Sr) Differential travel Degree of protection Conforming to IEC 60529 IP 67 DIN 40050 IP 69K °C .. Setting-up 7 Minimum mounting distances (mm) 3 Sn e e Metal Metal e Object to be detected Ø 18 Ø 30 Dimensions Side by side e u 72 e u 120 Face to face e u 144 e u 264 Facing a metal object e u 36 e u 66 8 XS2 (1) 9 b a XS2 Ø 18 Ø 30 (1) LED Pre-cabled (mm) a b 60 51 60 51 10 Connector (mm) a b 70 52 70 52 3/93 ..40…+ 85 Operating temperature °C .4 A “quick-blow” fuse in series with the load. amplitude ± 2 mm (f = 10 to 55 Hz) Shock resistance Conforming to IEC 60068-2-27 50 gn.6 Ø 30 mm 0. CSA.8 Maximum switching frequency XS2 18AAMppp Hz a 25 or c 1000 XS2 30AAMppp Hz a 25 or c 300 Delays First-up ms y 30 Response ms y 0. open state mA y 0. non flush mountable Two-wire AC or DC Characteristics Sensor type Product certifications/approvals XS2ppAAMpU20 UL..5 Recovery ms Wiring schemes Connector 4 5 y 0.5 XS2 18AAMppp. plastic. Pre-cabled 1/2"-20UNF z: 2 z: 3 2 2 IP 68.25…+ 85 Case PPS Cable – Vibration resistance Conforming to IEC 60068-2-6 25 gn. setting-up.34 mm2 3 Yellow LED: annular Rated supply voltage V a or c 24…240 (a 50/60 Hz) Voltage limits (including ripple) V a or c 20…264 Switching capacity mA a 5…300 or c 5…200 (1) Voltage drop. e XS2ppAAMpL2 Connection 1/2"-20UNF – – Length: 2 m Connector Pre-cabled Operating zone Ø 18 mm 0…9.Inductive proximity sensors Characteristics. 9 10 Accessories: page 3/112 3/94 + WH/2 BU/3 8 BU/3 BK/4 BN/1 - 0 .5 Ø = M18 x 1 Nominal sensing distance (Sn) 3 a = 70 b = 51.References. annular Yellow LED..6 V y 15 mA 1000 Hz y 10 ms y 0. PvR 4 x 0.7 ms 4-wire c. PNP/NPN.060 References 4-wire c PNP/PNP programmable NO/NC Weight (kg) Characteristics 4 5 6 Product certifications Connection Degree of protection Conforming to IEC 60529 Operating zone Repeat accuracy Differential travel Operating temperature Output state indication Rated supply voltage Voltage limits (including ripple) Switching capacity Voltage drop.3 ms y 0.200 mA with overload and short-circuit protection y 2. (2) Sensors available with other cable lengths: please consult our Customer Care Centre. closed state Current consumption. UL. NO or NC output NO 4 3 1 2 BN: brown BU: blue BK: black WH: white NC BN/1 WH/2 + BK/4 - See connection on page 9/45. Factor 1 (Fe/Nfe) sensors (1) for ferrous and non ferrous materials Solid-state output Flush mountable in metal 1 b a 2 Lengths (mm): a = Overall b = Threaded section a = 60 b = 51.34 mm2. (1) The variation in sensing distance between ferrous and non ferrous materials is typically less than 5%. CSA Pre-cabled.5 Ø = M18 x 1 Brass case 5 mm Brass case 5 mm XS1 M18KPM40 XS1 M18KPM40D 0. 4 viewing ports at 90° c 12…24 V with protection against reverse polarity c 10…38 V 0. dimensions. length 2 m (2) M12 connector IP 68 IP 67 0…4 mm 3% of Sr 1…15% of Sr 0…+ 50 °C Yellow LED.120 0. schemes Inductive proximity sensors OsiSense XS Detection at fixed sensing distance. no-load Maximum switching frequency Delays First-up Response Recovery Wiring schemes M12 connector 7 Pre-cabled e.. characteristics. 6 V y 15 mA 1000 Hz y 5 ms y 0. (2) Sensors available with other cable lengths: please consult our Customer Care Centre.34 mm2.5 Ø = M30 x 1.145 e. annular c 12…24 V with protection against reverse polarity c 10…38 V 0…200 mA with overload and short-circuit protection y 2. h u 0 8 (1) The variation in sensing distance between ferrous and non ferrous materials is typically less than 5%.m e u 60 e u 120 e u 15 e u 30 d u 18. CSA Pre-cabled. setting-up 0 OsiSense XS Detection at fixed sensing distance.5 2 a = 70 b = 51. h u 0 d u 30. XS1 M30: < 100 N.7 ms 3 4 M12 connector on 0.205 0. characteristics.8 m flying lead IP 67 5 6 Setting-up Minimum mounting distances (mm) Side by side Face to face Facing a metal object Mounted in a metal support e e 7 h d e XS1 M18 flush mountable e u 10 XS1 M30 flush mountable e u 20 Fixing nut tightening torque: XS1 M18: < 35 N. UL. length 2 m (2) IP 68 0…8 mm 3% of Sr 1…15% of Sr 0…+ 50 °C Yellow LED.Inductive proximity sensors References. Factor 1 (Fe/Nfe) sensors (1) for ferrous and non ferrous materials Solid-state output 1 a = 60 b = 51.5 Ø = M12 x 1 Stainless steel case 10 mm Stainless steel case 10 mm XS1 M30KPM40 XS1 M30KPM40LD 0. 9 10 3/95 .m. PvR 4 x 0.3 ms y 0. Inductive proximity sensors References, characteristics 2 OsiSense XS Application Fixed sensing distance detection, Factor 1 (Fe/Nfe) sensors (1) for ferrous and non ferrous materials Solid-state output Sensor Flush mountable in metal 1 2 Nominal sensing distance (Sn) 3 15 mm References 4-wire c PNP/NPN/NO/NC programmable XS7 C40KPM40 Weight (kg) 0.220 Product certifications e, CSA, UL Characteristics 4 5 6 7 Degree of protection Conforming to IEC 60529 IP 67 Operating temperature 0…+ 50 °C Connection Screw terminals, clamping capacity 4 x 0.34 mm2 (2) Operating zone 0…12 mm Repeat accuracy 3% of Sr Differential travel 1…15% of Sr Output state indication Yellow LED Rated supply voltage c 12…24 V with protection against reverse polarity Voltage limits (including ripple) c 10…38 V Current consumption, no-load y 15 mA Switching capacity 0…200 mA with overload and short-circuit protection Voltage drop, closed state y 2.6 V Maximum switching frequency 1000 Hz Delays 8 9 10 3/96 First-up Response Recovery y 5 ms y 0.3 ms y 0.7 ms (1) The variation in sensing distance between ferrous and non ferrous materials is typically less than 5%. (2) Cable gland not included with sensor. For suitable 13P cable gland (XSZ PE13), see page 3/112. 2 Inductive proximity sensors Dimensions, setting-up, schemes 2 OsiSense XS Application 2 Fixed sensing distance detection, Factor 1 (Fe/Nfe) sensors (1) for ferrous and non ferrous materials Solid-state output Dimensions XS7 C40KPM40 1 40 20 40 2 (1) 60 117 25 (3) 3 (2) 30 = 16 24 = 40 4 41 (1) Output LED. (2) 1 tapped entry for 13P cable gland. (3) 2 elongated holes Ø 5.3 x 7. Setting-up Minimum mounting distances (mm) 5 e e Sensor flush mountable in metal XS7 C40KPM40 Side by side e u 40 Face to face e u 120 e 6 Facing a metal object e u 45 Tightening torque of cover fixing screws and clamp screws: < 1.2 N.m Wiring schemes 7 PNP/NPN 4-wire c programmable, NO or NC output NO output 1 2 + NC output 3 – 3 + 2 4 4 8 – 1 9 10 3/97 Inductive proximity sensors References, characteristics, schemes, dimensions 2 OsiSense XS Application Selective detection of ferrous materials Selective detection of non ferrous materials Cylindrical type, solid-state output Flush mountable Stainless steel case 1 2 3 4 5 6 Nominal sensing distance (Sn) 5 mm References 3-wire, ferrous version Insensitive to non ferrous materials 3-wire, non ferrous version Insensitive to ferrous materials Weight (kg) PNP NO XS1 M18PAS40 PNP NO XS1 M18PAS20 0.120 Characteristics Product certifications Connection Operating zone Degree of protection conforming to IEC 60529 Operating temperature Output state indication UL, CSA, e Pre-cabled, PvR, 3 x 0.34 mm2, length 2 m (1) 0…4 mm IP 68 - 25…+ 70 °C Yellow LED, annular Rated supply voltage Voltage limits (including ripple) Switching capacity c 12…24 V with protection against reverse polarity c 10…38 V 0…200 mA with overload and short-circuit protection Voltage drop, closed state Residual current, open state Current consumption, no-load y 2.6 V – y 15 mA Maximum switching frequency 1000 Hz Delays First-up Response Recovery Wiring schemes Dimensions 3-wire c PNP BN/1 7 PNP y 10 ms y 0.3 ms y 0.7 ms (1) Sensors available with other cable lengths: please consult our Customer Care Centre. XS1 M + a (mm) 60 BK/4 b (mm) 51.5 b – a BU/3 Setting-up 8 Minimum mounting distances (mm) d e h e e 9 XS1 M18 10 Accessories: pages 3/112 3/98 Side by side e ≥ 10 Face to face e ≥ 60 Facing a metal object e ≥ 15 Mounted in a metal support d ≥ 18, h ≥ 0 (ferrous metal) d ≥ 18, h ≥ 5 (non ferrous metal) h ≥ 0 (ferrous metal) 9 e h e d e XS1 M18 Side by side e ≥ 10 Face to face e ≥ 60 Facing a metal object e ≥ 15 d ≥ 18. 5 y 10 ms y 0. h ≥ 5 (non ferrous metal) 10 Accessories: pages 3/112 3/99 .7 ms 3-wire c PNP BN/1 4 b b (mm) 51. CSA. no-load y 2.3 ms y 0. characteristics. open state Current consumption. closed state Residual current.Inductive proximity sensors References. 4 viewing ports at 90° Rated supply voltage Voltage limits (including ripple) Switching capacity c 12…24 V with protection against reverse polarity c 10…38 V 0…200 mA with overload and short-circuit protection Voltage drop. solid-state output Flush mountable Stainless steel case Nominal sensing distance (Sn) 1 2 5 mm References 3-wire. schemes.25…+ 70 °C Yellow LED.6 V – y 15 mA Maximum switching frequency 1000 Hz Delays First-up Response Recovery Wiring schemes M12 connector 4 3 PNP 1 XS1 M + – BU/3 6 Dimensions a (mm) 70 BK/4 2 See connection on page 9/45. non ferrous version Insensitive to ferrous materials Weight (kg) PNP NO XS1 M18PAS40D PNP NO XS1 M18PAS20D 3 0. ferrous version Insensitive to non ferrous materials 3-wire.5 7 a Setting-up Minimum mounting distances (mm) 8 Mounted in a metal support d ≥ 18.060 Characteristics Product certifications Connection Degree of protection conforming to IEC 60529 Operating zone Operating temperature Output state indication UL. e M12 connector IP 67 0…4 mm . dimensions (continued) 2 OsiSense XS Application Selective detection of ferrous materials Selective detection of non ferrous materials Cylindrical type. 12 x 26 x 40 mm DC supply. amplitude ± 2 mm (f = 10 to 55 Hz) Rated supply voltage Voltage limits (including ripple) c 12…24 V c 10…30 V Current consumption.34 mm2..6 mm M8 Repeat accuracy Differential travel Degree of protection Storage temperature Operating temperature Materials Vibration resistance Conforming to IEC 60068-2-6 Shock resistance Conforming to IEC 60068-2-27 Output state indication ≤ 10% of Sr 3. duration 11 ms Yellow LED (on top of case) c 12…48 V c 10…58 V c 12…24 V c 10…30 V c 12…24 V c 10…30 V c 12…48 V c 10…58 V c 12…24 V c 10…30 V 0…200 mA (2) y 2. e Characteristics Connection Pre-cabled Connector Operating zone 5 6 7 8 3 x 0.2 mm 4 x 0.100 Product certifications CSA. solid-state output Flush mountable in metal Non flush mountable in metal 2 mm 4 mm 1 2 Nominal sensing distance (Sn) References 3-wire c 3 4 4-wire c (complementary outputs) PNP NO XS7 G12PA140 – XS7 G12PA140S XS8 G12PA140 – XS8 G12PA140S NPN NO XS7 G12NA140 – XS7 G12NA140S XS8 G12NA140 – XS8 G12NA140S PNP NO + NC – XS7 G12PC440 – – XS8 G12PC440 – NPN NO + NC – XS7 G12NC440 – – XS8 G12NC440 – 0.34 mm2. characteristics Sensor OsiSense XS Application For assembly.40…+ 85 °C . (2) With overload and short-circuit protection 9 10 3/100 Weight increase 0. closed state 0…100 mA (2) y 1.6 V 0…100 mA (2) y 1.030 0. no-load y 10 mA Switching capacity Voltage drop.8 V Maximum switching frequency Delays First-up Response Recovery y 2 kHz y 4 ms y 0. cable: PVC 25 gn. length 2 m (1) – – M8 Weight (kg) 0.6 V 0…100 mA (2) y 1.320 kg 2 . packaging and light material handling Plastic case. UL.Inductive proximity sensors References.5 ms y 1 ms 50 gn.8 V 0…100 mA (2) y 1.20% of Sr IP 67 .120 kg 0.100 0.34 mm2.34 mm2. length 2 m (1) – 0…1.25…+ 70 °C Case: PBT.100 0.. length 2 m (1) – 0…3.030 4 x 0. length 2 m (1) – – 3 x 0.8 V 0…200 mA (2) y 2.8 mA y 1 kHz (1) Sensors available with other cable lengths: Length of cable Suffix to be added to references stated above for 2 m pre-cabled sensors 5m L1 10 m L2 Example: sensor XS7 G12PA140 with 5 m long cable becomes XS7 G12PA140L1.100 0. 1 x 5. Setting-up Minimum mounting distances (mm) e XS7 G flush mountable XS8 G non flush mountable Wiring schemes Side by side eu0 e u 10 3-wire c.Inductive proximity sensors Dimensions.1 x 5. NO output BN/1 BK/4 Facing a metal object and mounting in a metal support eu6 e u 12 7 4-wire c. (2) Cable L = 2 m. schemes 2 OsiSense XS Application For assembly. solid-state output Dimensions XSp G12pA140. (2) 2 holes M3 x 5. 10 3/101 . setting-up. NO + NC output BN/1 PNP Face to face e u 15 e u 60 6 e e BN BN NPN PNP BK/4 BK(NO) WH(NC) NPN BK(NO) 8 WH(NC) BU/3 BU/3 BU BU Connector M8 1 4 9 3 See connection on page 9/45.1. packaging and light material handling Plastic case. 3 XSp G12pA140S Rear view 26 18 12 4 (2) 10 4 4 16 30 45 4 M8 4 40 32 (1) 5 31 (1) 1 elongated hole Ø 3. XSp G12pC440 4 18 12 4 10 4 (3) 30 32 2 16 (1) (2) 4 40 1 Rear view 26 (1) 1 elongated hole Ø 3.1. (3) 2 holes M3 x 5. 12 x 26 x 40 mm DC supply. cable: PVC 25 gn.. packaging and light material handling Plastic case. length 2 m (1) Operating zone 0…1.25…+ 70 °C Case: PBT.5 V Residual current.2 mm 50 gn.5 mA/120 V a 25 Hz or c 250 Hz 1 2 Nominal sensing distance (Sn) References 2-wire c or a 3 4 5 6 7 Characteristics Delays 0…3. 2 x 0. 8 9 10 3/102 2 . it is essential to connect a 0. 12 x 26 x 40 mm AC or DC supply Flush mountable in metal Non flush mountable in metal 2 mm 4 mm NO XS7 G12MA230 XS8 G12MA230 NC XS7 G12MB230 XS8 G12MB230 Weight (kg) 0.40…+ 85 °C . closed state 5…200 mA (2) y 5. duration 11 ms Yellow LED (on top of case) First-up Response Recovery y 40 ms y 1 ms y 2 ms (1) Sensors available with other cable lengths: Length of cable Suffix to be added to references stated above Weight increase for 2 m pre-cabled sensors 5m L1 0.34 mm2.100 Product certifications CSA.120 kg 10 m L2 0. characteristics Sensor Inductive proximity sensors OsiSense Application ® For assembly. (2) These sensors do not incorporate overload or short-circuit protection and therefore. e Connection Pre-cabled. UL.6 mm Repeat accuracy Differential travel ≤ 10% of Sr 3.100 0.20% of Sr Degree of protection Storage temperature Operating temperature Materials Vibration resistance Conforming to IEC 60068-2-6 Shock resistance Conforming to IEC 60068-2-27 Output state indication IP 67 .. 1.320 kg Example: sensor XS7 G12MA230 with 5 m long cable becomes XS7 G12MA230L1. amplitude ± 2 mm (f = 10 to 55 Hz) Rated supply voltage Voltage limits (including ripple) a 24…240 V (50/60 Hz) or c 24…210 V a or c 20…264 V Switching capacity Voltage drop.4 A “quick-blow” fuse in series with the load.8 mA/24 V. open state Maximum switching frequency y 0.References. (2) Cable L = 2 m. packaging and light material handling Plastic case. 12 x 26 x 40 mm AC or DC supply Dimensions XSp G12Mp230 4 18 4 12 10 4 (3) 2 16 32 30 (1) (2) 4 40 1 Rear view 26 (1) 1 elongated hole Ø 3. setting-up. NO or NC output BN BU 6 7 8 9 10 3/103 .1. schemes 2 OsiSense Application ® For assembly. 3 Setting-up Minimum mounting distances (mm) e e e 4 XS7 G flush mountable XS8 G non flush mountable Wiring schemes Side by side eu0 e u 10 Face to face e u 15 e u 60 Facing a metal object and mounting in a metal support eu6 e u 12 5 2-wire a or c.Inductive proximity sensors Dimensions. (3) 2 holes M3 x 5.1 x 5. 7 ms y 5 ms y 2 ms y 5 ms y 7 ms y 0. no-load – Switching capacity Residual current.8 m flying lead Operating zone 0…12 mm Repeat accuracy ≤ 3% of Sr (effective sensing distance) Differential travel 3…20% of Sr (effective sensing distance) Output state indication Yellow LED.1 mA y 5.15 m flying lead 0…16 mm y 10 mA – y 10 mA – y 10 mA 0…200 mA 1.220 0.34 mm2 length 2 m (1) – Connector Remote M12 – – 0.8 m flying lead 0.2 V y2V 1000 Hz 150 Hz 1000 Hz 150 Hz 1000 Hz y 7 ms y 0. open state 1.5…100 mA 0…200 mA 1.25…+ 70 °C 0.7 ms (1) Sensors available with other cable lengths: Length of cable Suffix to be added to references stated above for 2 m pre-cabled sensors Weight increase 5m L1 0.320 kg Example: sensor XS7 T4DA210 with 5 m cable becomes XS7 T4DA210L1 Other versions Sensors specifically designed for other operating temperatures. e Degree of protection Conforming to IEC 60529 Operating temperature IP 67 Connection Pre-cabled 2 x 0. on rear Rated supply voltage c 12…48 V with protection against reverse polarity Voltage limits (including ripple) c 10…58 V Current consumption.5…100 mA With overload and short-circuit protection y 0.7 mA y 0.7 ms y 5 ms y 2 ms y 5 ms y 7 ms y 0.1 mA y 0.1 mA y 0. 3/104 2 .220 Product certifications UL.2 V y2V Maximum switching frequency 150 Hz Delays y 5 ms y 2 ms y 5 ms First-up Response Recovery 0.120 kg 10 m L2 0. characteristics Sensor OsiSense XS Application For conveying and material handling applications Plastic case.265 0. Please consult our Customer Care Centre.3 ms y 0. cubic 40 form.Inductive proximity sensors References.3 ms y 0.265 0.7 mA y 0.5…100 mA 0…200 mA y 0.3 ms y 0.265 0. multiposition DC supply Flush mountable in metal Non flush mountable in metal 15 mm 20 mm 1 2 Nominal sensing distance (Sn) 3 4 5 6 7 8 9 10 References 2-wire c NO (non polarised) 4-wire c PNP NO + NC (complementary outputs) NPN NO + NC XS7 T4DA210 – XS7 T4DA214LD – XS7 T4DA214LD01 – – – XS7 T4PC440 – XS7 T4PC440LD – XS8 T4PC440 XS8 T4PC440LD – XS7 T4NC440 – XS7 T4NC440LD – XS8 T4NC440 XS8 T4NC440LD Weight (kg) 0.200 Characteristics .2 V y2V y 5.220 0.5 mm2 length 2 m (1) 4 x 0.34 mm2 length 2 m (1) – 4 x 0. closed state y 5. CSA.7 mA Voltage drop. Inductive proximity sensors Dimensions. 4-wire XS8 T. setting-up. 4-wire  Pre-cabled BU: Blue BN: Brown BK: Black WH: White Side by side e u 40 e u 40 e u 60 2-wire c. NO output BN/1 BU/4 e e e Face to face e u 120 e u 120 e u 160 8 Facing a metal object e u 45 e u 45 e u 60 9 4-wire c. XS7 T4pppppLD01 Plate mounted 1 Bracket mounted = 53 2 40 24 25 (1) 55 40 (1) 40 43 40 40 44 40 = 31 = = 3 30 30 45 4 55 (1) LED. schemes 2 OsiSense XS Application For conveying and material handling applications Plastic case. NO + NC output BN/1 PNP BU/3 BK/4 (NO) WH/2 (NC) BN/1 NPN BU/3 + BK/4 (NO) WH/2 (NC) – 10 See connection on page 9/45. Alternative positions of head M3 x 6 CHC screw 5 M3 x 6 CHC screw 0 0 0 0 6 M3 x 6 CHC screw M3 x 6 CHC screw 7 Setting-up Minimum mounting distances (mm) Sensors flush mountable in metal Sensors non flush mountable in metal Wiring schemes Connector 4 1 3 2 XS7 T. XSp T4pppppLD. 2-wire XS7 T. cubic 40 form. 3/105 . multiposition DC supply Dimensions XSp T4ppppp. 374 Product certifications e. amplitude ± 2 mm (f = 10 to 55 Hz) Shock resistance Conforming to IEC 60068-2-27 50 gn.Inductive proximity sensors References. solid-state output Sensor Flush mountable in metal 1 2 3 Dimensions (mm) 80 x 80 x 40 Nominal sensing distance (Sn) 50 mm (not flush mounted: 42 mm) References 2-wire c (non polarised) 4 5 6 7 8 NO XS7 D1A3CAM12DIN Weight (kg) 0. increased range. flush mountable. CSA. duration 11 ms Connection M12 connector Operating zone 0…40 mm (not flush mounted: 0…35 mm) Repeat accuracy 3% of Sr Differential travel 1…15% of Sr Output state indication Yellow LED Rated supply voltage c 12…48 V with protection against reverse polarity Voltage limits (including ripple) c 10…58 V Residual current. double insulation i Temperature Operating . closed state y 4.5…300 mA with overload and short-circuit protection Voltage drop. DIN rail mounting. switching capacity 300 mA 80 x 80 x 40 format.5 mA Switching capacity 1. characteristics 2 OsiSense XS Application Flat sensor.25…+ 70 °C Storage . open state y 0.5 V Maximum switching frequency 100 Hz Delays 9 10 3/106 2 First-up y 10 ms Response y 2 ms Recovery y 5 ms . UL: pending Characteristics Degree of protection Conforming to IEC 60529 IP 67.40…+ 85 °C Vibration resistance Conforming to IEC 60068-2-6 25 gn. flush mountable. solid-state output Dimensions XS7 D1A3CAM12DIN 1 80 40 30 (1) 2 18 80 65 65 5.1 (2) 3 (1) Output LED (2) For CHC type screws Setting-up Minimum mounting distances (mm) Face to face Side by side e Back to back Facing a metal object e e 4 e Flush mounted Not flush mounted 450 450 140 180 Flush/non flush conditions 2-wire NO/M12 XS7 D1A3CAM12DIN d > 10 mm Su 35 mm Sn 50 mm 5 150 150 Wiring schemes In A37 steel Sn 42 mm 90 180 4 3 1 2 NO BN/1 +/- BK/4 -/+ 6 See connection on page 9/45. increased range.Inductive proximity sensors Dimensions. 7 Su 40 mm 8 9 10 3/107 . setting-up. switching capacity 300 mA 80 x 80 x 40 format. DIN rail mounting. schemes 2 OsiSense XS Application 2 Flat sensor. threaded Sensors flush mountable in metal 1 b c a 2 3 Lengths (mm): a = Overall b = Threaded section c = For non flush mountable sensors Nominal sensing distance (Sn) PNP.25…+ 70 °C Yellow LED.6 ms 3-wire c. closed state Current consumption. NO output 1 PNP 3 See connection on page 9/44. no-load Immunity to electromagnetic fields Maximum switching frequency Delays First-up Response Recovery Wiring schemes M12 connector 4 1 8 a = 60 b = 40 Ø = M12 x 1 References 3-wire c 3 2 e.1 ms y 0. Teflon coated steel. 4 viewing ports at 90° c 12…24 V with protection against reverse polarity c 10…36 V 0.4 ms y 0. (1) Sensors particularly resistant to welding machine electromagnetic fields. NO Weight (kg) 4 5 6 7 a = 60 b = 40 Ø = M18 x 1 Teflon front face 2 mm Teflon front face 5 mm XS1 M12PAW01D XS1 M18PAW01D 0. dimensions. PNP.250 mA with overload and short-circuit protection y 2. characteristics.025 0. UL. 9 10 Accessories: page 3/112 3/108 0 + 4 (NO) – . schemes Inductive proximity sensors OsiSense XS Application Sensors for welding machine applications (1) Cylindrical type.060 Characteristics Product certifications Connection Degree of protection Conforming to IEC 60529 Operating zone Repeat accuracy Differential travel Operating temperature Output state indication Rated supply voltage Voltage limits (including ripple) Switching capacity Voltage drop. CSA M12 connector IP 67 0…1..6 mm 0…4 mm 3% of Sr 1…20% of Sr .5 V y 15 mA y 140 mT 1000 Hz 500 Hz y 10 ms y 10 ms y 0..References. Metal case.2 ms y 0. UL. characteristics.145 0. h u 8 9 10 3/109 . h u 0 d u 18.25…+ 70 °C Yellow LED.7 ms y 5 ms 0…3.5 V y 15 mA y 140 mT 250 Hz y 10 ms y 0.2 mm 5 6 1000 Hz y 10 ms y 0.m. Metal case.4 ms Setting-up Minimum mounting distances (mm) Side by side Face to face Facing a metal object Mounted in a metal support 7 e e h d 8 e XS1 M12 flush mountable eu0 eu7 XS1 M18 flush mountable eu0 e u 16 XS1 M30 flush mountable eu0 e u 20 XS2 M12 non flush mountable e u 15 eu9 Fixing nut tightening torque: XS1 M12.5 2 a = 60 b = 36 c=4 Ø = M12 x 1 Teflon front face 10 mm Teflon front face 4 mm XS1 M30PAW01D XS2 M12PAW01D 0.m. XS2 M12: < 15 N. Teflon coated steel.m eu6 eu9 e u 20 e u 11 d u 12. setting-up 0 OsiSense XS Application Sensors for welding machine applications (1) Cylindrical type. XS1 M18: < 35 N.Inductive proximity sensors References. h u 0 d u 36. threaded Sensors non flush mountable in metal 1 a = 60 b = 40 Ø = M30 x 1.025 3 4 e. h u 0 d u 30. XS1 M30: < 50 N. CSA M12 connector IP 67 0…8 mm 3% of Sr 1…20% of Sr .2 ms y 0. 4 viewing ports at 90° c 12…24 V with protection against reverse polarity c 10…36 V 0…250 mA with overload and short-circuit protection y 2. plain.2 m flying lead 0.15 m flying lead 0 .8 m flying lead IP 67 0…2. closed state Residual current. Metal case. dimensions.5 mA – 800 Hz First-up: ≤ 5 ms. no-load Maximum switching frequency Delays Wiring schemes 2-wire c . response: ≤ 05 ms. annular c 12…48 V c 10…58 V 1.065 0. NO output 7 8 9 10 3/110 BN/1 +/– BK/4 –/+ Remote M12 connector on Remote M12 connector on 1. schemes OsiSense XS Application For welding machine applications Cylindrical type.4 mm ≤ 3% of Sr 1…15% of Sr .5 ms Remote M12 connector on 0.050 0. characteristics. open state Current consumption.5…100 mA with overload and short-circuit protection ≤4V ≤ 0. with shoulder Flush mountable in metal 1 d c b a 2 3 4 5 6 Ø = 12 a = 55 b = 50 c = 9 (threaded end) d = 15 hexagonal Lengths (mm): a = Overall b = To shoulder c = Removal d = Shoulder Nominal sensing distance (Sn) 3 mm 3 mm 3 mm XSL C1401393L1 XSL C1401393L3 XSL C1401393L4 0. non polarised.25…+ 80 °C Yellow LED.050 References 2-wire c (non polarised) Terminal connections Weight (kg) 1-4 NO Characteristics Connection Degree of protection conforming to IEC 60529 Operating zone Repeat accuracy Differential travel Operating temperature Output state indication Rated supply voltage Voltage limits (including ripple) Switching capacity Voltage drop. recovery: ≤ 0.Inductive proximity sensors References. h = 0 e ≥ 16 e ≥ 96 e ≥ 24 d = 54. h = 16 8 9 10 3/111 .5…100 mA with overload and short-circuit protection ≤4V ≤ 0. annular c 12…48 V c 10…58 V 1.8 m flying lead Remote M12 connector on 0.15 m flying lead Remote M12 connector on 1. recovery: ≤ 2 ms 3 4 0…8 mm 5 6 Setting-up Minimum mounting distances (mm) Side by side Face to face Facing a metal object Mounted in a metal support Ø 12 (flush mountable) Ø 18 (non flush mountable) e h e XSL C 7 d e e ≥ 10 e ≥ 60 e ≥ 15 d = 12. Flush mountable in metal 0 Non flush mountable in metal 1 2 Ø = 18 a = 45 b = 35 c = 20 (Teflon front face and case) d = Ø 22 Ø = 18 a = 40 b = 35 c = 0 (PPS front face) d = Ø 22 6.5 mA – 100 Hz First-up: ≤ 10 ms.25…+ 70 °C Yellow LED.065 0. response: ≤ 10 ms.100 0.3 mm 10 mm 10 mm XSL C1401392L1 XSL C1401405L3 XSL C1401405L4 0.050 Remote M12 connector on 0.2 m flying lead IP 67 0…5 mm 3% of Sr 1…15% of Sr . 010 0. XS2 XS1.006 0.5) 8 (M8 x 1) 12 (M12 x 1) 18 (M18 x 1) 30 (M30 x 1. XS5. XS5.060 0.005 0. XS1 nickel plated XS1. XS6 XS1. XTp Protection accessories Cable sleeve adaptor (CNOMO type) Outer cover (IP 68) Thread adaptor 13P cable gland Protective cover Sold in lots of 50 825997 8 0.100 0. XT1. XS5.050 0. XS2. XTp 30 (M30 x 1.5) 18 (M18 x 1) 30 (M30 x 1. XS2.006 Set of 2 stainless steel fixing nuts XS1.020 0. XS4.060 0.001 0. XS6pppB2 control Fixing clamps XS1 XSp.002 0. XS5.5) 6.050 0. XS7 C40.015 0.005 0.020 0.060 XT1 Set of 2 metal fixing nuts. XS6 Adaptor collar Weight kg XSZ BJ00 XSZ BF00 XSZ BE00 XSZ BC00 XSZ BJ90 XSZ BF90 XSZ BE90 XSZ BC90 XSZ BE10 XS4 XSZ P1pp Unit reference Diameter (mm) – – – – – – – – – XS1. XS8 T4. XS5.5) Clamping capacity Ø 9 to 12 mm M12 universal connectors XSZ P112 XSZ P118 XSZ P130 XSC Z01 XTA Z30 XSZ PE13 XSZ F10 0.63 A “quick-blow” 10 XUZ E06 0. Also enables clipping onto 35 mm omega rail. XS8 C40 and XSC XSp D (for XSD) (1) Fixing clamp for remote XS9.010 0.5) XT7 C – XSp. XTp XSp.010 0.035 0. XS6 Set of 2 plastic fixing nuts XS4 Ø 20 Ø 34 XSp.5) 8 (M8 x 1) 12 (M12 x 1) 18 (M18 x 1) 30 (M30 x 1.005 0. XS2.020 0.050 0. XSE XSp C Replaces: XS7 T4.005 0.025 0.5 (plain) 8 (M8 x 1) XSZ B104 XSZ B105 XSZ B165 XSZ B108 0.001 50 AB1 FU10135U 0.006 12 (M12 x 1) 18 (M18 x 1) 30 (M30 x 1. XS2.025 0.5) XSZ B112 XSZ B118 XSZ B130 XUZ B32 XSZ E105 XSZ E108 XSZ E112 XSZ E118 XSZ E130 XSZ E308 XSZ E312 XSZ E318 XSZ E330 XSZ E208 XSZ E212 XSZ E218 XSZ E230 XSZ A020 XSZ A034 0.5) 8 (M8 x 1) 12 (M12 x 1) 18 (M18 x 1) 30 (M30 x 1.002 0. XS6.5) 32 (plain) 5 (M5 x 0.Inductive proximity sensors References 2 OsiSense XS Accessories 561454 520691 1 Mounting and fixing accessories Description XSZ Bp00 XSZ Bp90 520695 520694 2 3 XSZ BE10 562270 4 562271 XSZ BC10 5 825994 XSZ BPM12 XSZ B1pp 825995 825996 XSZ A0pp 7 – XSZ BC10 0. XS2. XS4.015 0. XS5.015 0.003 0.003 0.005 0.003 0.015 0. XTp Fixings 9 Threaded inserts for rear XSp E fixing XSp C XSp D XSC Z01 Fuses (for unprotected 2-wire c/a sensors) 10 520935 821980 Description XSZ F10 3/112 XTA Z30 Type M3 M4 M5 Sold in lots of Unit reference Weight kg Cartridge fuses 0.001 5 x 20 0. XS8 T2.4 A “quick-blow” 10 XUZ E04 0.040 Fuse terminal block for XUZ E0p (1) Depth adjustment shim for converting 80 x 80 x 26 mm format to 80 x 80 x 40 mm format.005 0. XS6 XS1. .004 0.005 12 (M12 x 1) 18 (M18 x 1) 30 (M30 x 1.015 4 (plain) 5 (M5 x 0.005 0.8 A “quick-blow” 10 XUZ E08 0.020 XSZ VF03 XSZ VF04 XSZ VF05 0.005 0.010 0. XT1. XS2.065 0. XT1 XSZ BD10 6 For use with sensor Type “Clip” XSp J mounting plate XSp F Can be mounted without XSp E “clip” on threaded holes XSp C “Clip” 90° XSp J mounting bracket XSp F Can be mounted without XSp E “clip” on threaded holes XSp C Replacement bracket XSp E Replaces: XS7 T2.110 – – XSZ BD10 XSZ BPM12 0.005 0.005 0. XS6 XS1. Inductive proximity sensors Dimensions 2 OsiSense XS Accessories XSZ BJ00 XSZ BF00 5,1 12 7 M3 6,1 20 1 M3 5,5 27,5 19 M3 15 8 9,9 M3 22,5 2 34,5 XSZ BE00 10 16 42 30 27,4 M5 6 17 M3 (1) 3 10 11,9 XSZ BC00 (1) 5,5 48,5 4 77,2 4,5 12 (1) 4 screws M4 x 14 (included). (1) 2 screws M3 x 12 (included). XSZ BJ90 XSZ BF90 10,5 5 34,5 15 22,5 32 5,1 12 M3 18,5 9 4,5 16 14 4 8 6,1 M3 20 6 M3 M3 M3 7 XSZ BE90 XSZ BC90 16 30,8 M3 42 10 30 8 27,4 17 6 10 (1) (1) 23,9 29,4 36,9 M5 9 44,3 44,4 (1) 2 screws M3 x 12 (included). (1) 4 screws M4 x 14 (included). 10 3/113 Inductive proximity sensors Dimensions 2 OsiSense XS Accessories XSZ BE10 1 XSZ BC10 M5 30 42,5 2 2,8 39 25 41 35 M3 42 41 55 XSZ BD10 (for mounting on XSp Dpppp) XSZ BPM12 Ø2 65 M5 12,5 4 9 13,3 3 1,5 18 80 65 83,7 11 5 26 14 80 6 XSZ-B104, B105 XSZ-B108, B112, B118, B130, B165 3 8,5 = 8 9 = (1) 12,3 4 XSZ Ø B104 4 B105 5 Note: for fixing clamps XSZ B118 and XSZ B130, see mounting precautions, page 31100-EN/9. 9 10 3/114 22 8 b2 b 6,7 4 8 7 b1 38,3 15 3,5 a1 a XSZ a a1 b b1 B108 19.9 14.5 14 12.5 B112 21.9 14.5 16 15.5 B118 26 15.7 22.3 20.1 B130 39 21.7 35.5 31 B165 19.9 14.5 14 12.5 (1) 2 elongated holes 4 x 8 mm. b2 7.5 8.5 11.5 18.5 7.5 Ø 8 12 18 30 6.5 Inductive proximity sensors Dimensions (continued) 2 OsiSense XS Accessories XUZ B32 XSZ A0pp 1 (2) = = = 50 15 a 40 25(1) (2) 20 a1 = 2 60 (1) Maximum value (2) 2 holes Ø 5.5 2 x M5 screws, HM head, included with fixing clamp XSZ P112, P118, P130 XSZ A020 A034 a Ø18 Ø30 a1 Ø20 Ø34 3 XSC Z01 XSZ P112 P118 P130 Ø d1 12 18 30 (1) Ø d2 16,8 23 34,4 4 h 22 34 49 h 7 6,2 6,2 134 69 48 12,5 7 12,5 5 60 8 = 8 = = 147 XTA Z30 44,4 60 9,4 1,5 M30 x 1,5 1" 1/2 12UNF 31 33,3 25,4 2 6 = 50,8 (1) 13P cable gland 7 8 9 10 3/115 5 8x8x1 0…1.5 5 0 2.5 2.8 Ø 5 8x8x1 0…1.5 0 2.6 Ø 12 pick-up points drop-out points (object approaching from the side) 1 Ø 4 (plain) XS1 and Ø 5 (M5 x 0.5 mm15 10 7.5 (plain) XS1 L06pp349 Sensing distance (mm) 4 9 3 1 1 2 10 1 0. XS4 2 Ø 30 (M30 x 1.2 Ø 12 pick-up points drop-out points (object approaching from the side) 1 Ø 12 (M12 x 1) XS4 1 2 6 1 0.5) XS1 2 Ø 6.2 Ø 8 12 x 12 x 1 0…1. XS4 2 10 1 1 8 5 8 2.5 (plain) XS1 and Ø 8 (M8 x 1) XS5 3 Ø 12 (M12 x 1) XS5 Sensing distance (mm) 3 3 2 2 2 2 1 1 1 0.5 5 7. increased range Flush mountable in metal Sensor (mm) Standard steel target (mm) Operating zone (mm) 8x8x1 0…2 Ø 6.5 5 Non flush mountable in metal 5 Sensing distance (mm) 4 1 Sensor (mm) Standard steel target (mm) Operating zone (mm) 12 x 12 x 1 0…3.2 Ø 6.5 5 2.5 10 15mm Sensing distance (mm) 15 3 2 2 10 8 1 4 Sensor (mm) Standard steel target (mm) Operating zone (mm) 18 x 18 x 1 0…4 Ø 18 30 x 30 x 1 0…8 Ø 30 pick-up points drop-out points (object approaching from the side) 1 Ø 18 (M18 x 1) XS5 2 Ø 30 (M30 x 1.5 mm 4 3/116 3 2 1 0 1 2 3 4 mm 2 .Inductive proximity sensors Detection curves OsiSense XS Cylindrical type sensors 1 Flush mountable in metal Sensor (mm) Standard steel target (mm) Operating zone (mm) 5x5x1 0…0.5 pick-up points drop-out points (object approaching from the side) 1 Ø 6.5) XS5 1 5 2.5 mm 6 4 3 2 7 2 1 0 1 2 3 4 6 mm Sensing distance (mm) 15 Sensor (mm) Standard steel target (mm) Operating zone (mm) 24 x 24 x 1 0…6.4 Ø 18 45 x 45 x 1 0…12 Ø 30 pick-up points drop-out points (object approaching from the side) 1 Ø 18 (M18 x 1).5 mm15 10 7.5).5 mm 6 4 3 2 1 0 1 2 3 4 6 mm 7.8 Ø 4 5x5x1 0…0.5 10 15mm Cylindrical type sensors. 2 pick-up points drop-out points (object approaching from the side) Sensing distance (mm) 3 2.Detection curves (continued) Inductive proximity sensors 2 OsiSense XS Flat type sensors Flush mountable in metal 1 Sensor (mm) Standard steel target (mm) Operating zone (mm) XS7 J1A1D 5x5x1 0.5 2 1 0.5 mm -4 -3 -2 -1 0 1 2 3 4 mm Sensing distance (mm) 6 5 Sensor (mm) Standard steel target (mm) Operating zone (mm) XS7 F1A1D 5x5x1 0.8 pick-up points drop-out points (object approaching from the side) Sensing distance (mm) 12 10 8 5 6 6 4 2 mm-10 -5 0 5 10 mm Sensor (mm) Standard steel target (mm) Operating zone (mm) XS7 C1A1D 18 x 18 x 1 0.......8 XS7 E1A1C 8x8x1 0..32 XS7 D1A1C 30 x 30 x 1 0.5 2 1..12 pick-up points drop-out points (object approaching from the side) Sensing distance (mm) 16 14 12 7 10 8 6 8 4 2 mm -15 -10 -5 0 5 10 15 20 mm Sensor (mm) Standard steel target (mm) Operating zone (mm) XS7 D1A1D 30 x 30 x 1 0.......12 XS7 C1A1C 18 x 18 x 1 0.32 pick-up points drop-out points (object approaching from the side) Sensing distance (mm) 45 40 35 9 30 25 20 15 10 10 5 mm -40 -30 -20 -10 0 10 20 30 40mm 3/117 .4 pick-up points drop-out points (object approaching from the side) 3 4 3 4 2 1 mm -8 -6 -4 -2 0 2 4 6 8 mm Non flush mountable in metal Sensor (mm) Standard steel target (mm) Operating zone (mm) XS7 E1A1D 8x8x1 0... Substitution table Old sensor New OsiSense XS sensor Cylindrical type. DC XS1M08DA214D XS508B1CAM12 XS1N08PA349S XS108B3PAM8 Diameter 6.80 m flying lead. the metal case replaces the plastic case. (2) For the new sensor an M12 connector replaces the M8 connector.5 mm XS1M08DA214LD XS508B1CAL08M12 XS1N08PB349 XS108B3PBL2 XS1N08PB349L1 XS108B3PBL5 XS1N08PB349D XS108B3PBM12 XS1N08PB349S XS108B3PBM8 Old sensor 1 New OsiSense XS sensor Inductive proximity sensors XS1 2 3 4 5 6 XS1L06NA140 XS106BLNAL2 XS1L06PA140 XS106BLPAL2 8 10 XS1M08NA370D XS508BLNAM12 XS1M08NA370L1 XS508BLNAL5 XS506B1NAL2 XS1M08NB370 XS508BLNBL2 XS2 XS1L06NA340S XS506B1NAM8 XS1M08NB370D XS508BLNBM12 XS2M08NA340 XS608B1NAL2 XS1L06NB340 XS506B1NBL2 XS1M08PA370 XS508BLPAL2 XS2N08NA340 XS108B3NAL2 XS1L06NB340S XS506B1NBM8 XS1M08PA370D XS508BLPAM12 XS2N08NA340D XS108B3NAM12 XS1L06PA340 XS506B1PAL2 XS1M08PA370L1 XS508BLPAL5 XS2N08NA340L1 XS108B3NAL5 XS1L06PA340L1 XS506B1PAL5 XS1M08PA370L2 XS508BLPAL10 XS2N08NA340L2 XS108B3NAL10 XS1L06PA340D XS506B1PAM12 XS1M08PA370LD XS508BLPAM12 (1) XS2N08NA340S XS108B3NAM8 XS1L06PA340S XS506B1PAM8 XS1M08PA370S XS508BLPAM12 (2) XS2N08NB340 XS108B3NBL2 XS1L06PB340 XS506B1PBL2 XS1M08PB370 XS508BLPBL2 XS2N08NB340D XS108B3NBM12 XS1L06PB340L1 XS506B1PBL5 XS1M08PB370D XS508BLPBM12 XS2N08NB340S XS108B3NBM8 XS1L06PB340S XS506B1PBM8 XS1M08PB370L1 XS508BLPBL5 XS2N08PA340 XS108B3PAL2 XS1M08PB370L2 XS508BLPBL10 XS2N08PA340D XS108B3PAM12 XS2N08PA340L1 XS108B3PAL5 XS2N08PA340L2 XS108B3PAL10 XS1L06NA349 XS106B3NAL2 XS1L06NA349S XS106B3NAM8 XS1N08NA340 XS508B1NAL2 XS2N08PA340S XS108B3PAM8 XS1L06NB349 XS106B3NBL2 XS1N08NA340D XS508B1NAM12 XS2N08PB340 XS108B3PBL2 XS1L06NB349S XS106B3NBM8 XS1N08NA340L1 XS508B1NAL5 XS2N08PB340D XS108B3PBM12 XS1L06PA349 XS106B3PAL2 XS1N08NA340L2 XS508B1NAL10 XS2N08PB340S XS108B3PBM8 XS1L06PA349L1 XS106B3PAL5 XS1N08NA340S XS508B1NAM8 XS1L06PA349D XS106B3PAM12 XS1N08NB340 XS508B1NBL2 XS1L06PA349S XS106B3PAM8 XS1N08NB340D XS508B1NBM12 XS1L06PB349 XS106B3PBL2 XS1N08NB340S XS508B1NBM8 XS3P08NA340 XS508B1NAL2 (3) XS1L06PB349L1 XS106B3PBL5 XS1N08PA340 XS508B1PAL2 XS3P08NA340D XS508B1NAM12 (3) XS1L06PB349S XS106B3PBM8 XS1N08PA340D XS508B1PAM12 XS3P08NA340L1 XS508B1NAL5 (3) XS1N08PA340L1 XS508B1PAL5 XS3P08PA340 XS508B1PAL2 (3) XS1N08PA340L2 XS508B1PAL10 XS3P08PA340D XS508B1PAM12 (3) XS1N08PA340LD XS508B1PAM12 XS3P08PA340L1 XS508B1PAL5 (3) XS3 XS1N08PA340S XS508B1PAM8 XS1D08NA140 XS108BLNAL2 XS1N08PB340 XS508B1PBL2 XS1D08NA140D XS108BLNAM12 XS1N08PB340D XS508B1PBM12 XS3P08NA370 XS508BLNAL2 (3) XS1D08PA140 XS108BLPAL2 XS1N08PB340L1 XS508B1PBL5 XS3P08NA370L1 XS508BLNAL5 (3) XS1D08PA140D XS108BLPAM12 XS1N08PB340L2 XS508B1PBL10 XS3P08PA370 XS508BLPAL2 (3) XS1D08PA140L1 XS108BLPAL5 XS1N08PB340S XS508B1PBM8 XS3P08PA370L1 XS508BLPAL5 (3) XS1M08DA210 XS508B1DAL2 XS1N08NA349 XS108B3NAL2 XS1M08DA210D XS508B1DAM12 XS1N08NA349L1 XS108B3NAL5 XS1M08DA210L1 XS508B1DAL5 XS1N08NA349D XS108B3NAM12 XS508B1DAL10 XS1N08NA349S XS108B3NAM8 XS508B1DAL08M12 XS1N08NB349 XS108B3NBL2 XS508B1DBL2 XS1N08NB349L1 XS108B3NBL5 XS1M08DB210D XS508B1DBM12 XS1N08NB349D XS108B3NBM12 XS1M08DB210L1 XS508B1DBL5 XS1N08NB349S XS108B3NBM8 XS1M08DB210LD XS508B1DBM12 (1) XS1N08PA349 XS108B3PAL2 XS1N08PA349L1 XS108B3PAL5 XS1N08PA349D XS108B3PAM12 XS1 XS1M08DA210L2 9 XS508BLNAL2 New OsiSense XS sensor XS1L06NA340 Diameter 8 mm 7 XS1M08NA370 Old sensor XS1M08DA210LD XS1M08DB210 (1) For the new sensor an integral M12 connector replaces the remote M12 connector on a 0. (3) For the new OsiSense XS sensor. 3/118 . the metal case replaces the plastic case.Inductive proximity sensors Substitution table Old sensor New OsiSense XS sensor Cylindrical type. (2) For the new sensor an M12 connector replaces the M8 connector.80 m flying lead. 3/119 . (3) For the new OsiSense XS sensor. DC (continued) XS1N12NB340D XS512B1NBM12 Diameter 12 mm XS1N12PA340 XS512B1PAL2 Old sensor New OsiSense XS sensor Old sensor New OsiSense XS sensor 1 XS1N12PA340D XS512B1PAM12 XS2N12NA340 XS112B3NAL2 XS1D12NA140 XS112BLNAL2 XS1N12PA340L1 XS512B1PAL5 XS2N12NA340D XS112B3NAM12 XS1D12NA140D XS112BLNAM12 XS1N12PA340L2 XS512B1PAL10 XS2N12NA340L1 XS112B3NAL5 XS1D12PA140 XS112BLPAL2 XS1N12PA340LD XS512B1PAM12 (1) XS2N12NA340L2 XS112B3NAL10 XS1D12PA140D XS112BLPAM12 XS1N12PA340S XS512B1PAM12 (2) XS2N12NB340 XS112B3NBL2 XS1D12PA140L1 XS112BLPAL5 XS1N12PB340 XS512B1PBL2 XS2N12NB340D XS112B3NBM12 XS1N12PB340D XS512B1PBM12 XS2N12PA340 XS112B3PAL2 XS1N12PB340L1 XS512B1PBL5 XS2N12PA340D XS112B3PAM12 XS1 2 XS1M12DA210 XS512B1DAL2 XS2N12PA340L1 XS112B3PAL5 XS1M12DA210D XS512B1DAM12 XS2N12PA340L2 XS112B3PAL10 XS1M12DA210L1 XS512B1DAL5 XS1M12PA349D XS612B1PAM12 XS2N12PB340 XS112B3PBL2 XS1M12DA210L2 XS512B1DAL10 XS1N12NA349 XS112B3NAL2 XS2N12PB340D XS112B3PBM12 XS1M12DA210LA XS512B1DAL08U78 XS1N12NA349L1 XS112B3NAL5 XS2N12PB340L1 XS112B3PBL5 XS1M12DA210LD XS512B1DAL08M12 XS1N12NA349D XS112B3NAM12 XS1M12DB210 XS512B1DBL2 XS1N12NB349 XS112B3NBL2 XS1M12DB210D XS512B1DBM12 XS1N12NB349L1 XS112B3NBL5 XS3 XS1M12DB210L1 XS512B1DBL5 XS1N12NB349D XS112B3NBM12 XS3P12NA340 XS512B1NAL2 (3) XS1M12DB210L2 XS512B1DBL10 XS1N12PA349 XS112B3PAL2 XS3P12NA340D XS512B1NAM12 (3) XS1M12DB210LD XS512B1DBL08M12 XS1N12PA349L1 XS112B3PAL5 XS3P12NA340L1 XS512B1NAL5 (3) XS1N12PA349D XS112B3PAM12 XS3P12PA340 XS512B1PAL2 (3) XS1N12PB349 XS112B3PBL2 XS3P12PA340D XS512B1PAM12 (3) XS3P12PA340L1 XS512B1PAL5 (3) XS3P12NA370 XS512BLNAL2 (3) XS3P12NA370L1 XS512BLNAL5 (3) XS1M12DA214D XS512B1CAM12 XS1N12PB349L1 XS112B3PBL5 XS1M12DA214LD XS512B1CAL08M12 XS1N12PB349D XS112B3PBM12 XS1M12NA370 XS512BLNAL2 XS2 XS1M12NA370D XS512BLNAM12 XS2D12NA140 XS212BLNAL2 XS3P12PA370 XS512BLPAL2 (3) XS1M12NA370L1 XS512BLNAL5 XS2D12NA140D XS212BLNAM12 XS3P12PA370L1 XS512BLPAL5 (3) XS1M12NA370L2 XS512BLNAL10 XS2D12NA140L1 XS212BLNAL5 XS1M12NA370S XS612B1NAM12 (2) XS2D12PA140 XS212BLPAL2 XS1M12NB370 XS512BLNBL2 XS2D12PA140D XS212BLPAM12 XS1M12NB370D XS512BLNBM12 XS2D12PA140L1 XS212BLPAL5 XS1M12PA370 XS512BLPAL2 XS1M12PA370D XS512BLPAM12 XS1M12PA370L1 XS512BLPAL5 XS2M12NA370 XS612B1NAL2 XS1M12PA370L2 XS512BLPAL10 XS2M12NA370D XS612B1NAM12 XS1M12PA370LA XS612B1PAL08U78 XS2M12NA370L1 XS612B1NAL5 XS1M12PA370LD XS612B1PAL08M12 XS2M12NA370L2 XS612B1NAL10 XS1M12PB370 XS512BLPBL2 XS2M12NB370 XS612B1NBL2 XS1M12PB370D XS512BLPBM12 XS2M12NB370D XS612B1NBM12 XS1M12PB370L1 XS512BLPBL5 XS2M12PA370 XS612B1PAL2 XS1M12PB370L2 XS512BLPBL10 XS2M12PA370D XS612B1PAM12 XS1M12PB370LD XS612B1PAM12 (1) XS2M12PA370L1 XS612B1PAL5 XS2M12PA370L2 XS612B1PAL10 XS2M12PA370LA XS612B1PAL08U78 XS1N12NA340 XS512B1NAL2 XS2M12PA370LD XS612B1PAL08M12 XS1N12NA340D XS512B1NAM12 XS2M12PB370 XS612B1PBL2 XS1N12NA340L1 XS512B1NAL5 XS2M12PB370D XS612B1PBM12 XS1N12NA340L2 XS512B1NAL10 XS2M12PB370L1 XS612B1PBL5 XS1N12NB340 XS512B1NBL2 XS2M12PB370S XS612B1PBM12 (2) 3 4 5 6 7 8 9 10 (1) For the new sensor an integral M12 connector replaces the remote M12 connector on a 0. B. connectors A.1 m flying lead replace integral connectors A. C and G. DC (continued) XS1M18PA370LA XS618B1PAL08U78 XS2M18NA370 XS618B1NAL2 Diameter 18 mm XS1M18PA370LD XS518BLPAM12 (1) XS2M18NA370A XS618B1NAL01U78 (4) XS1 XS1M18PA370DTQ XS518BLPAM12TQ XS2M18NA370B XS618B1NAL01B (4) Old sensor 1 2 New OsiSense XS sensor XS1D18NA140 XS118BLNAL2 XS1M18PA370TF XS518BLPAL2TF XS2M18NA370C XS618B1NAL01C (4) XS1D18NA140D XS118BLNAM12 XS1M18PB370 XS518BLPBL2 XS2M18NA370D XS618B1NAM12 XS1D18NA140L1 XS118BLNAL5 XS1M18PB370A XS618B1PBL01U78 (4) XS2M18NA370L1 XS618B1NAL5 XS1D18PA140 XS118BLPAL2 XS1M18PB370B XS618B1PBL01B (4) XS2M18NA370L2 XS618B1NAL10 XS1D18PA140D XS118BLPAM12 XS2M18NB370 XS618B1NBL2 XS1D18PA140L1 XS118BLPAL5 XS2M18NB370B XS618B1NBL01B (4) XS2M18NB370C XS618B1NBL01C (4) XS1 3 4 XS1M18PB370D XS518BLPBM12 XS2M18NB370D XS618B1NBM12 XS1M18DA210 XS518B1DAL2 XS1M18PB370L1 XS518BLPBL5 XS2M18NB370L1 XS618B1NBL5 XS1M18DA210B XS518B1DAL01B (4) XS1M18PB370L2 XS518BLPBL10 XS2M18NB370L2 XS618B1NBL10 XS1M18DA210C XS518B1DAL01C (4) XS1M18PB370C XS618B1PBL01C (4) XS2M18PA370 XS618B1PAL2 XS1M18DA210D XS518B1DAM12 XS2M18PA370A XS618B1PAL01U78 (4) XS1M18DA210G XS518B1DAL01G (4) XS2M18PA370B XS618B1PAL01B (4) XS1M18DA210L1 XS518B1DAL5 XS1N18NA340 XS518B1NAL2 XS2M18PA370C XS618B1PAL01C (4) XS1M18DA210L2 XS518B1DAL10 XS1N18NA340D XS518B1NAM12 XS2M18PA370D XS618B1PAM12 XS1M18DA210LD XS518B1DAL08M12 XS1N18NA340L1 XS518B1NAL5 XS2M18PA370G XS618B1PAL01G (4) XS1M18DB210 XS518B1DBL2 XS1N18NA340L2 XS518B1NAL10 XS2M18PA370LA XS618B1PAL08U78 (4) XS1M18DB210B XS518B1DBL01B (4) XS1N18NB340 XS518B1NBL2 XS2M18PA370L1 XS618B1PAL5 XS1M18DB210D XS518B1DBM12 XS1N18NB340D XS518B1NBM12 XS2M18PA370L2 XS618B1PAL10 XS1M18DB210LD XS518B1DBL08M12 XS1N18NB340L2 XS518B1NBL10 XS2M18PB370 XS618B1PBL2 XS1N18PA340 XS518B1PAL2 XS2M18PB370A XS618B1PBL01U78 (4) XS1N18PA340D XS518B1PAM12 XS2M18PB370B XS618B1PBL01B (4) 5 6 7 8 9 10 XS1M18DA214D XS518B1CAM12 XS1N18PA340L1 XS518B1PAL5 XS2M18PB370C XS618B1PBL01C (4) XS1M18DA214LD XS518B1CAL08M12 XS1N18PA340L2 XS518B1PAL10 XS2M18PB370D XS618B1PBM12 XS1N18PB340 XS518B1PBL2 XS2M18PB370L1 XS618B1PBL5 XS1N18PB340D XS518B1PBM12 XS2M18PB370L2 XS618B1PBL10 XS1N18PB340L2 XS518B1PBL10 XS1M18NA370 XS518BLNAL2 XS1M18NA370A XS618B1NAL01U78 (4) XS1M18NA370B XS618B1NAL01B (4) XS1M18NA370C XS618B1NAL01C (4) XS2 XS1M18NA370D XS518BLNAM12 XS2D18NA140 XS218BLNAL2 XS1M18NA370L1 XS518BLNAL5 XS2D18NA140D XS218BLNAM12 XS3P18NA340L1 XS518B1NAL5 (3) XS1M18NA370L2 XS518BLNAL10 XS2D18PA140 XS218BLPAL2 XS3P18PA340 XS518B1PAL2 (3) XS1M18NB370 XS518BLNBL2 XS2D18PA140D XS218BLPAM12 XS3P18PA340D XS518B1PAM12 (3) XS1M18NB370B XS618B1NBL01B (4) XS2D18PA140L1 XS218BLPAL5 XS3P18PA340L1 XS518B1PAL5 (3) XS3 XS3P18NA340 XS518B1NAL2 (3) XS3P18NA340D XS518B1NAM12 (3) XS1M18NB370C XS618B1NBL01C (4) XS1M18NB370D XS518BLNBM12 XS1M18NB370L1 XS518BLNBL5 XS2N18NA340 XS118B3NAL2 XS3P18NA370 XS518BLNAL2 (3) XS1M18NB370L2 XS518BLNBL10 XS2N18NA340D XS118B3NAM12 XS3P18NA370L1 XS518BLNAL5 (3) XS1M18PA370 XS518BLPAL2 XS2N18NA340L1 XS118B3NAL5 XS3P18PA370 XS518BLPAL2 (3) XS1M18PA370A XS618B1PAL01U78 (4) XS2N18NA340L2 XS118B3NAL10 XS3P18PA370L1 XS518BLPAL5 (3) XS1M18PA370B XS618B1PAL01B (4) XS2N18NB340 XS118B3NBL2 XS3P18PA370L2 XS518BLPAL10 (3) XS1M18PA370C XS618B1PAL01C (4) XS2N18NB340D XS118B3NBM12 XS1M18PA370D XS518BLPAM12 XS2N18PA340 XS118B3PAL2 XS1M18PA370G XS618B1PAL01G (4) XS2N18PA340D XS118B3PAM12 XS4 XS1M18PA370DTQ XS518BLPAM12TQ XS2N18PA340L1 XS118B3PAL5 XS4P18NA370B XS4P18NA370L01B (4) XS1M18PA370G XS618B1PAL01G (4) XS2N18PA340L2 XS118B3PAL10 XS4P18NB370B XS4P18NB370L01B (4) XS1M18PA370L1 XS518BLPAL5 XS2N18PB340 XS118B3PBL2 XS4P18PA370B XS4P18PA370L01B (4) XS1M18PA370L2 XS518BLPAL10 XS2N18PB340D XS118B3PBM12 XS4P18PB370B XS4P18PB370L01B (4) (1) For the new sensor an integral M12 connector replaces the remote M12 connector on a 0. (3) For the new OsiSense XS sensor. C and G on 0. B.80 m flying lead. 3/120 . (4) For the new sensor. the metal case replaces the plastic case.Inductive proximity sensors Substitution table Old sensor New OsiSense XS sensor Old sensor New OsiSense XS sensor Cylindrical type. 80 m flying lead. C and G on 0. (3) For the new OsiSense XS sensor. the metal case replaces the plastic case. 3/121 . B. C and G. (4) For the new sensor. DC (continued) XS1M30PA370D XS530BLPAM12 XS2M30NB370L2 XS630B1NBL10 Diameter 30 mm XS1M30PA370G XS630B1PAL01G (4) XS2M30PA370 XS630B1PAL2 Old sensor New OsiSense XS sensor 1 XS1M30PA370L1 XS530BLPAL5 XS2M30PA370A XS630B1PAL01U78 (4) XS1D30NA140 XS130BLNAL2 XS1M30PA370L2 XS530BLPAL10 XS2M30PA370B XS630B1PAL01B (4) XS1D30NA140D XS130BLNAM12 XS1M30PB370 XS530BLPBL2 XS2M30PA370C XS630B1PAL01C (4) XS1D30PA140 XS130BLPAL2 XS1M30PB370B XS630B1PBL01B (4) XS2M30PA370D XS630B1PAM12 XS1D30PA140D XS130BLPAM12 XS1M30PB370C XS630B1PBL01C (4) XS2M30PA370G XS630B1PAL01G (4) XS1D30PA140L1 XS130BLPAL5 XS1M30PB370D XS530BLPBM12 XS2M30PA370L1 XS630B1PAL5 XS2D30NA140 XS230BLNAL2 XS1M30PB370G XS630B1PBL01G (4) XS2M30PA370L2 XS630B1PAL10 XS2D30NA140D XS230BLNAM12 XS1M30PB370L1 XS530BLPBL5 XS2M30PB370 XS630B1PBL2 XS2D30PA140 XS230BLPAL2 XS1M30PB370L2 XS530BLPBL10 XS2M30PB370B XS630B1PBL01B (4) XS2D30PA140D XS230BLPAM12 XS2M30PB370C XS630B1PBL01C (4) XS1 XS2M30PB370D XS630B1PBM12 XS1N30NA340 XS530B1NAL2 XS2M30PB370G XS630B1PBL01G (4) XS1M30DA210 XS530B1DAL2 XS1N30NA340D XS530B1NAM12 XS2M30PB370L1 XS630B1PBL5 XS1M30DA210B XS530B1DAL01B (4) XS1N30NA340L1 XS530B1NAL5 XS2M30PB370L2 XS630B1PBL10 XS1M30DA210C XS530B1DAL01C (4) XS1N30NA340L2 XS530B1NAL10 XS1M30DA210D XS530B1DAM12 XS1N30NB340 XS530B1NBL2 XS1M30DA210G XS530B1DAL01G (4) XS1N30NB340D XS530B1NBM12 XS3 XS1M30DA210L1 XS530B1DAL5 XS1N30PA340 XS530B1PAL2 XS3P30NA340 XS1M30DA210L2 XS530B1DAL10 XS1N30PA340D XS530B1PAM12 XS3P30NA340D XS530B1NAM12 (3) XS1M30DA210LD XS530B1DAL08M12 XS1N30PA340L1 XS530B1PAL5 XS3P30NA340L1 XS530B1NAL5 (3) XS1M30DB210 XS530B1DBL2 XS1N30PA340L2 XS530B1PAL10 XS3P30PA340 XS530B1PAL2 (3) XS1M30DB210B XS530B1DBL01B (4) XS1N30PB340 XS530B1PBL2 XS3P30PA340D XS530B1PAM12 (3) XS1M30DB210D XS530B1DBM12 XS1N30PB340D XS530B1PBM12 XS3P30PA340L1 XS530B1PAL5 (3) XS1M30DB210LD XS530B1DBM12 (1) XS3P30PA340L2 XS530B1PAL10 (3) XS1M30DA214D XS530B1CAM12 XS2N30NA340 XS130B3NAL2 XS3P30PA370 XS530BLPAL2 (3) XS1M30DA214LD XS530B1CAL08M12 XS2N30NA340D XS130B3NAM12 XS3P30PA370L1 XS530BLPAL5 (3) XS2N30NA340L1 XS130B3NAL5 XS3P30PA370L2 XS530BLPAL10 (3) XS2N30NA340L2 XS130B3NAL10 XS3P30NA370 XS530BLNAL2 (3) XS2N30NB340 XS130B3NBL2 XS3P30NA370L1 XS530BLNAL5 (3) XS2N30NB340D XS130B3NBM12 2 3 4 XS530B1NAL2 (3) 5 XS2 XS1M30PA349D XS630B1PAM12 (5) 6 XS2N30PA340 XS130B3PAL2 XS1M30NA370 XS530BLNAL2 XS2N30PA340D XS130B3PAM12 XS4 XS1M30NA370B XS630B1NAL01B (4) XS2N30PA340L1 XS130B3PAL5 XS4P30NA370B XS4P30NA370L01B (4) XS1M30NA370C XS630B1NAL01C (4) XS2N30PA340L2 XS130B3PAL10 XS4P30NB370B XS4P30NB370L01B (4) XS1M30NA370D XS530BLNAM12 XS2N30PB340 XS130B3PBL2 XS4P30PA370B XS4P30PA370L01B (4) XS1M30NA370L1 XS530BLNAL5 XS2N30PB340D XS130B3PBM12 XS4P30PB370B XS4P30PB370L01B (4) XS1M30NA370L2 XS530BLNAL10 XS1M30NB370 XS530BLNBL2 XS1M30NB370B XS630B1NBL01B (4) XS2M30NA370 XS630B1NAL2 XS1M30NB370C XS630B1NBL01C (4) XS2M30NA370B XS630B1NAL01B (4) XS1M30NB370D XS530BLNBM12 XS2M30NA370C XS630B1NAL01C (4) XS1M30NB370L1 XS530BLNBL5 XS2M30NA370D XS630B1NAM12 XS1M30NB370L2 XS530BLNBL10 XS2M30NA370L1 XS630B1NAL5 XS2M30NA370L2 XS630B1NAL10 XS2M30NB370 XS630B1NBL2 XS1M30PA370 XS530BLPAL2 XS2M30NB370B XS630B1NBL01B (4) XS1M30PA370A XS630B1PAL01U78 (4) XS2M30NB370C XS630B1NBL01C (4) XS1M30PA370B XS630B1PAL01B (4) XS2M30NB370D XS630B1NBM12 XS1M30PA370C XS630B1PAL01C (4) XS2M30NB370L1 XS630B1NBL5 7 8 9 10 (1) For the new sensor an integral M12 connector replaces the remote M12 connector on a 0. Sn = 15 mm instead of 20 mm. B.1 m flying lead replace integral connectors A. (5) For the new sensor. connectors A.Inductive proximity sensors Substitution table Old sensor New OsiSense XS sensor Old sensor New OsiSense XS sensor Cylindrical type. C and G on 0. connectors A. B. Sn = 8 mm instead of 10 mm. (4) For the new sensor. AC or DC Diameter 18 mm Diameter 12 mm XS1 XS1 XS1M18FA264 XS1M12FA264 XS112BLFAL2 XS1M12FA264L2 XS112BLFAL10 New OsiSense XS sensor 6 XS3P18MA230 XS118BLFAL2 XS618B1MAU20 (3) XS3P18MA230L1 XS618B1MAL5 (3) XS3P18MA230L2 XS618B1MAL10 (3) XS1M18MA230 XS518B1MAL2 XS3P18MB230 XS618B1MBL2 (3) XS1M18MA230A XS618B1MAL01U78 (4) XS3P18MB230A XS618B1MBU20 (3) XS512B1MAL2 XS1M18MA230B XS618B1MAL01B (4) XS3P18MB230K XS618B1MBU20 (3) XS512B1MAU20 XS1M18MA230C XS618B1MAL01C (4) XS3P18MB230L1 XS618B1MBL5 (3) XS1M12MA230L1 XS512B1MAL5 XS1M18MA230G XS618B1MAL01G (4) XS1M12MA230L2 XS512B1MAL10 XS1M18MA230K XS518B1MAU20 XS1M12MB230 XS512B1MBL2 XS1M18MA230L1 XS518B1MAL5 XS4 XS1M12MB230K XS512B1MBU20 XS1M18MA230L2 XS518B1MAL10 XS4P18MA230B XS4P18MA230L01B (4) XS512B1MBL5 XS1M18MB230 XS518B1MBL2 XS4P18MA230C XS4P18MA230L01C (4) XS512B1MBL10 XS1M18MB230A XS618B1MBL01U78 (4) XS4P18MA230G XS4P18MA230L01G (4) XS1M18MB230B XS618B1MBL01B (4) XS4P18MB230B XS4P18MB230L01B (4) XS1M18MB230C XS618B1MBL01C (4) XS4P18MB230C XS4P18MB230L01C (4) XS1M12MB230L1 XS1M12MA239 XS612B1MAL2 XS1M18MB230G XS618B1MBL01G (4) XS1M12MA239K XS612B1MAU20 XS1M18MB230K XS518B1MBU20 XS1M18MB230L1 XS518B1MBL5 XS1M18MB230L2 XS518B1MBL10 XS618B1MAL2 (5) XS2M12MA230 XS612B1MAL2 XS2M12MA230K XS612B1MAU20 XS1M18MA239 XS2M12MA230L1 XS612B1MAL5 XS1M18MA239A XS1M18MA239L01A (4) XS2M12MA230L2 XS612B1MAL10 XS1M18MA239K XS618B1MAU20 (5) XS2M12MB230 XS612B1MBL2 XS2M12MB230K XS612B1MBU20 XS2M12MB230L1 XS612B1MBL5 XS2 XS2M12MB230L2 XS612B1MBL10 XS2M18MA230 XS618B1MAL2 XS2M18MA230A XS618B1MAL01U78 (4) XS2M18MA230B XS618B1MAL01B (4) XS2M18MA230C XS618B1MAL01C (4) XS3P12MA230 XS612B1MAL2 (3) XS2M18MA230G XS618B1MAL01G (4) XS3P12MA230K XS612B1MAU20 (3) XS2M18MA230K XS618B1MAU20 XS3P12MA230L1 XS612B1MAL5 (3) XS2M18MA230L1 XS618B1MAL5 XS3P12MA230L2 XS612B1MAL10 (3) XS2M18MA230L2 XS618B1MAL10 XS612B1MBL2 (3) XS2M18MB230 XS618B1MBL2 XS3P12MB230K XS612B1MBU20 (3) XS2M18MB230A XS618B1MBL01U78 (4) XS3P12MB230L1 XS612B1MBL5 (3) XS2M18MB230B XS618B1MBL01B (4) XS2M18MB230C XS618B1MBL01C (4) XS3P12MB230 8 XS2M18MB230G XS618B1MBL01G (4) XS2M18MB230K XS618B1MBU20 XS2M18MB230L1 XS618B1MBL5 XS2M18MB230L2 XS618B1MBL10 9 10 XS618B1MAL2 (3) XS3P18MA230K XS1M12MA230K XS3 7 New OsiSense XS sensor XS3 XS2 5 Old sensor XS1M12MA230 XS1M12MB230L2 4 New OsiSense XS sensor (3) For the new OsiSense XS sensor. 3/122 . C and G. (5) For the new sensor. B.Inductive proximity sensors Substitution table Old sensor 1 2 3 Old sensor Cylindrical type. the metal case replaces the plastic case.1 m flying lead replace integral connectors A. C and G on 0.Inductive proximity sensors Substitution table Old sensor New OsiSense XS sensor Cylindrical type. (4) For the new sensor.1 m flying lead replace integral connectors A. (5) For the new sensor. 3/123 . C and G. B. B. the metal case replaces the plastic case. AC or DC (continued) Old sensor New OsiSense XS sensor XS3P30MA230 XS630B1MAL2 (3) Diameter 30 mm XS3P30MA230K XS630B1MAU20 (3) XS1 XS3P30MA230L1 XS630B1MAL5 (3) XS3P30MA230L2 XS630B1MAL10 (3) XS3P30MB230 XS630B1MBL2 (3) XS1M30FA264 1 XS3 XS130BLFAL2 XS3P30MB230K XS630B1MBU20 (3) XS3P30MB230L1 XS630B1MBL5 (3) XS1M30MA230 XS530B1MAL2 XS1M30MA230A XS630B1MAL01U78 (4) XS1M30MA230B XS630B1MAL01B (4) XS1M30MA230C XS630B1MAL01C (4) XS4 XS1M30MA230G XS630B1MAL01G (4) XS4P30MA230B XS4P30MA230L01B (4) XS1M30MA230K XS530B1MAU20 XS4P30MA230C XS4P30MA230L01C (4) XS1M30MA230L1 XS530B1MAL5 XS4P30MA230G XS4P30MA230L01G (4) XS1M30MA230L2 XS530B1MAL10 XS4P30MB230B XS4P30MB230L01B (4) XS1M30MB230 XS530B1MBL2 XS4P30MB230C XS4P30MB230L01C (4) XS1M30MB230A XS630B1MBL01U78 (4) XS1M30MB230B XS630B1MBL01B (4) XS1M30MB230C XS630B1MBL01C (4) XS1M30MB230G XS630B1MBL01G (4) XS1M30MB230K XS530B1MBU20 XS1M30MB230L1 XS530B1MBL5 XS1M30MB230L2 XS530B1MBL10 XS1M30MA239 XS630B1MAL2 (5) XS1M30MA239A XS1M30MA239L01A (4) 2 3 4 5 6 XS2 XS2M30MA230 XS630B1MAL2 XS2M30MA230A XS630B1MAL01U78 (4) XS2M30MA230B XS630B1MAL01B (4) XS2M30MA230C XS630B1MAL01C (4) XS2M30MA230G XS630B1MAL01G (4) XS2M30MA230K XS630B1MAU20 XS2M30MA230L1 XS630B1MAL5 XS2M30MA230L2 XS630B1MAL10 XS2M30MB230 XS630B1MBL2 XS2M30MB230A XS630B1MBL01U78 (4) XS2M30MB230B XS630B1MBL01B (4) XS2M30MB230C XS630B1MBL01C (4) XS2M30MB230G XS630B1MBL01G (4) XS2M30MB230K XS630B1MBU20 XS2M30MB230L1 XS630B1MBL5 XS2M30MB230L2 XS630B1MBL10 7 8 9 10 (3) For the new OsiSense XS sensor. connectors A. Sn = 15 mm instead of 20 mm.
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