NEO Series General Catalogue. Set to 100 or 0 with just one button! Accurate, Stable Operation with Simple Setup!

Transcription

1 NEO Series General Catalogue Set to 0 or 0 with just one button! Accurate, Stable Operation with Simple Setup! Laser sensor Fibreoptic sensor Version Photoelectric sensor

2 The technology first introduced by the FS NEO to make easy setup and simple display a reality is now available in the LV and PS Series! Set to 0 or 0 with just one button! Simple Setup 1 push setting with the PRESET Button Simple Display All sensors display 0 or 0 Simple Operation Laser, fi breoptic, and photoelectric models all share the same simple functionality

3 Simple and Precise detection with the NEO Preset CONCEPT Complete setting with just one click When using a thrubeam model, sensitivity adjustments are completed with a single push of the PRESET button. Using a reflective model? Press once with a target present, and once without to calibrate according to the different conditions. CONCEPT Simple one click setup for reflective applications When using diffuse reflective type sensors, variations in the received light intensity can occur due to changing conditions such as mounting position and target configuration, thus resulting in unstable operation when attempting to detect small objects. The NEO Preset function erases these concerns and enables detection to be as simple as a thrubeam. No target present... 0 Target detected! 0 Specifications Specifications Specifications

4 With the NEO Series, sensor changes never go unnoticed! Conventional If a sensor error occurs... It is difficult to know which sensor has the error. NEO Preset If a sensor error occurs... The error is quickly noticed! By standardising the received light intensity display of multiple sensors to 0 and 0, it is easy to tell where an error has occurred because the sensor will not return to the original display value of 0 or 0.

5 CONCEPT Laser, fibreoptic, and photoelectric models all share the same simple operation Until now, the method of operation to activate new features differed from sensor to sensor. The NEO Series eliminates this problem by integrating the same features, functions, and key layout in all series. This allows you to select the best model for your application without having to learn the operation of a new sensor each time. Conventional Laser sensor Fibreoptic sensor Photoelectric sensor Specifications Specifications Specifications

6 Digital Laser Sensor Long distance with a visible beam for the next level of laser detection Digital Fibreoptic Sensor More than 0 fibre unit variations to support a wide range of applications Digital Photoelectric Sensor High environmental resistance and cable extension capabilities provide increased installation versatility Network Communication Unit Incorporate the NEO Series with an open field network for complete interfacing versatility

7 Limited installation space Need an extended sensor head cable Need to detect fastmoving targets Want to adjust the sensor beam spot size Need to detect small targets Need to use in a harsh environment Want to increase the installation distance Want to prevent detection errors caused by light wraparound Want to see the detection position A A A B A A A B B Since the spot is a visible red laser, the detection point is easy to see, even at long distances. C Visible red LED enables the spot to be seen at closer distances Narrow laser spot remains unchanged over long range. Detection spot size remains unchanged as the detection distance is increased. B C Using the LV-NH, the beam spot can be adjusted to a focused or wide spot, regardless of the mounting distance. 0 μs response time in HIGH SPEED mode. Sensor head cable can be extended up to m. Variety of small size sensor heads. In addition, increased detection distance reduces installation limitations. A B C A A A wide variety of heat resistant and fluorocarbon polymer encased sensor heads provide durable options for harsh environments. Beam spot adjustment is possible when using the FU- or F-HA. (Mounting distance must remain unchanged.) 0 μs response time in HIGH SPEED mode. Wide variety of small sensor head shapes and sizes allow for installation in almost any space-limited application. B C B C Several fluorocarbon polymer encased sensor heads provide durable options for water, oil, and chemical environments. PS-9 can detect targets as small as ø1. mm at a distance of 0 mm. Sensor head cable can be extended up to m. P. P. P. Specifications Specifications Specifications Want uniform control of multiple sensors Want to reduce wiring P. A : Excellent B : Good C : Acceptable

8 Digital Laser Sensor Long distance with a visible beam for the next level of laser detection * * The UL certifi cate is for LV-NHxx sensor head and LV-Nxx amplifier used in combination. Using a laser enables long distance detection for difficult applications while maintaining a focused, visible beam spot. 1 Visible red laser beam spot Precise detection positioning is possible without troublesome installation alignment caused by a weak or invisible beam. Long distance detection with a focused beam By using a laser light source, the beam spot remains unchanged over long distances, eliminating any concern about the mounting location. Full lineup conforming to Class 1 laser requirements Class 1 lasers provide completely safe operation and can be used in the same manner as other photoelectric sensors. NEO Preset Simply press the PRESET button to change the light intensity display to 0 or 0 to complete the sensitivity settings. NEO MEGA FUNCTION MEGA Mode provides Class equivalent light intensity while maintaining Class 1 laser safety. Application function DATUM function Even if dirt or debris causes the displayed light intensity to decrease, the DATUM function automatically detects the change and restores the display to its original state, thus maintaining stable operation. Open field network compatibility Connect an NU Series model for open field network compatibility. Reduced wiring No need to wire to a terminal block when using the NU Series. Interference prevention function Pause function Sleep function Monitor Output Type (LV-N11MN)

9 Lasers are Visible, Long Range, and Adjustable Visible beam ensures simple alignment and installation Long range detection is possible, eliminating installation restrictions Because the beam remains unchanged, lasers can easily detect through small gaps Stable detection of small targets Because the beam remains focused, small targets can be pinpointed for detection. Furthermore, because the LV-NEO resists up to,000 lux, stable operation is maintained even when exposed to sun and fl uorescent lighting. Conventional photoelectric sensor Because the light diffuses, the sensor is affected by background objects. Laser sensors are designed for general use, but requirements for target detection often demand more. Therefore, customers often seek additional setting options. The following modes are built into the NEO Series. Simply select the intended use. There is no need for complicated setting operations. Drop detection mode Percentage tuning mode Refl ective model background cancellation mode Maximum intensity mode Area detection mode Laser sensor Even minute targets can be pinpointed and detected. Application function modes enable easy selection of desired functions Targets dropped through the beam are detected by the falling intensity level. The set value is tuned and maintained to -% of the current value. Sets the background as 0 with no target present when using a refl ective model. Sets the sensor to MEGA mode with the extended -digit display activated. Set a high and low value for zone detection. Specifi cations Specifi cations Specifi cations Zero datum mode Sets the condition of no target present as 0 to allow simple detection of transparent objects or height changes. 9

10 Interference Prevention function supports up to sensors* Factory automation equipment is continuously decreasing in size, yet the number of applications that require sensors is steadily rising. When installing multiple sensors in a small area, the problem of interference between nearby sensors can arise. The NEO Series is equipped with a function that prevents interference from up to (or *) other sensors. * When in ULTRA or MEGA mode and set to double. Sensor transmission cycle timing Interference is prevented by automatically shifting the radiation cycle pattern of the laser light. * Diagram represents LV-N11N / NN when using FINE mode and set to double. * Same operation concept as the FS-N and PS-N. 1st sensor nd sensor rd sensor th sensor th sensor Time Pause function controls the sensor output The desired sensor output status can be controlled through an external signal input, regardless of the received light intensity. This will prove useful during a test run because the ON/OFF signal from the sensor can be confi rmed on the PLC without requiring the sensor to have a target present/absent. <Application improvement example using the area laser> LV-NH00 0 mm-wide area type (Thrubeam model) Less sensors are required to provide the same area detection fi breoptic sensors used LV-NH00 sensors used Detection of a hole in the target (hole position unspecified) <Film tear detection> The LV-NH00 is a 0 mm wide directional laser sensor. Holes within the 0 mm width are reliably detected. Because the detection area is small when using other photoelectric sensors, they may be unable to reliably detect the holes if the position varies. As a result, multiple sensors are required with the conventional method. LV-NH Long distance area type (Reflective model) Variation in target position is possible fi breoptic sensors used LV-NH sensors used Mark detection with variable target position <Board BAT mark detection> With the LV-NH area reflective laser sensor, the detection area increases as the detection distance increases. If the target is within the area range, the sensor will detect even if there is position variation. As a result, the number of required sensors can be reduced. In addition, the detection area is easily confirmed due to the visible laser beam.

11 <Sensor head variations> LV-NH Adjustable Beam Spot Spot size can be adjusted as needed LV-NH / NH / S1 Coaxial Structure Coaxial light ensures detection through small spaces Target LV-S1 / S Compact, M Thrubeam Actual dimensions Transmitter Receiver 0 mm Target LV-S / S Multi-Wavelength Laser Stable transparent target detection using a multi-wavelength laser Receiver A multi-wavelength laser has been adopted to ensure stable, accurate detection of transparent targets. Single wavelength Multiple wavelengths Transparent target Transparent target (1) Light emitting from the transmitter and passing through the target () Light passed through the target (1) Light emitting from the transmitter and passing through the target () Light passed through the target () Light returning from the back of the target When using the LV-NH, simply rotate the focus ring to change the spot diameter/width as desired, according to the size of the target. Additionally, the use of a very high-powered sensor head enables detection over long distances of up to 1. m. When using conventional reflective type photoelectric sensors, the position at which the sensor switches ON when the target passes through may vary. Additionally, conventional sensors cannot always be installed if the installation area is too small. This problem can be solved by using a coaxial structure in which the receiver is positioned in the same axis as the transmitter. Conventional reflective model photoelectric sensor () Light returning from the back of the target Transmitter Receiver (Front view) Coaxial structure Conventional reflective photoelectric sensor Coaxial structure Even in small locations, the target can be detected as long Compact thrubeam installation is now possible as the beam spot is able to reach the target. The sensor switches ON at the same position, regardless of the distance to the target. Featuring an ultra-small M size sensor head, installation area is no longer a concern. A variety of installation brackets are also available. LV-S1 Small ø1. mm spot diameter at 00 mm At a single wavelength, the light is reduced by surfaces (1) and (), causing the light at () to be unstable. By emitting light at different wavelengths, the effects of surface () on the light are kept to a minimum, enabling the light intensity at () to remain stable. Specifi cations Specifi cations Specifi cations 11

12 LINEUP Laser head variation to solve difficult conditions LV-S1 LV-S1L LV-NH Reflective P.1 Spot type Small size Enables long distance, small spot detection with an ultra-small footprint. LV-NH Coaxial structure Provides effective detection through a small hole or narrow gap. Small size, Side view Space-saving, side view sensor head provides a long distance small spot. LV-NH Ultra-small beam spot ø0μm Enables extremely minute target detection with background cancellation. Adjustable beam spot Up to 1. m detecting distance. Freely adjust the size and shape of the beam spot for precision and versatility. LV-S1 Small size, Adjustable range Dual photodiode allows adjustable distance-based detection while reducing background influence. LV-NH Retro-reflective P.1 Thrubeam P. Area type Spot type Area type Spot type Area type Long distance Reliably detects targets with holes or position variation. LV-S1 Small beam spot Provides compact size while achieving a small beam spot of ø. mm for up to 00 mm distance. LV-S Area beam Excellent transparent target detection with the ability to switch between a small spot or area beam. LV-S1 Small: M Provides the compact size of a fibre sensor while achieving a small beam spot of ø1. mm at a distance of 00 mm. LV-NH0 mm beam width Effective for height differentiation and applications with position variation. LV-NH Standard Achieves a small beam spot of ø1. mm over a 1 m range with the capability to detect up to m. LV-S Long-distance transparent object detection m detection with a square beam spot to provide stable detection of transparent objects. LV-S Small: M (with slit) Built-in ø mm slit filter allows for high accuracy detection. LV-NH00 0 mm beam width Effective for height differentiation and applications with position variation. LV-NH1 High power mm beam width High power enables accurate detection of low light transmission targets. Amplifier part P. 1 Cable Type M connector Type Zero line Type Monitor output Type

13 Reflective model Spot type Type Appearance Detecting distance Spot diameter Model Small size 1 MEGA : 00 ULTRA : 00 SUPER : 00 TURBO : 00 FINE : 0 HSP : 0 Approx. ø1. (Up to 00 mm distance) LV-S1 [P.1] Small size, Side view 1. 1 MEGA : 0 ULTRA : 00 SUPER : TURBO : FINE : HSP : 1 Approx. ø1. (Up to 00 mm distance) LV-S1L [P.1] Adjustable beam spot.. MEGA : 10 ULTRA : 00 SUPER : 0 TURBO : 00 FINE : HSP : 0 Approx. ø0. max. (Up to 00 mm distance) LV-NH [P.] Coaxial structure Ultra-small beam spot Small size, Adjustable range LV-S1 LV-NH Reflective model With mounting bracket (accessory) L-shaped mounting bracket OP-* Accessory LV-NH With mounting bracket (accessory) LV-S1L With mounting bracket L-shaped mounting bracket OP-* LV-NH With mounting bracket (accessory) Accessory (front mounted) MEGA : 0 ULTRA : 00 SUPER : 0 TURBO : 00 FINE : 0 HSP : 0 0± (Common for all power modes) Adjustment range: 0 to 0 (Range in which the reference distance can be adjusted) LV-S1 Accessory (rear mounted) With mounting bracket (accessory) Approx. ø (Up to 00 mm distance) Approx. ø0 μm (At 0 mm distance) Approx. ø (Up to 0 mm distance) LV-NH Characteristics of detecting distance and minimum spot diameter (typical example) LV-NH Characteristics of setting distance and spot diameter (typical example) LV-NH LV-NH Type Appearance Detecting distance Area width Model Long distance Accessories/Options With mounting bracket Area type MEGA : 10 ULTRA : 00 SUPER : 0 TURBO : 00 FINE : HSP : 0 Approx. 0. (At 0 mm distance) LV-S1 LV-NH Reflective model characteristics Spot diameter Spot diameter (μm) Distance X [P.1] [P.1] [P.1] [P.1] Y X Y 9 Distance Specifi cations Specifi cations Specifi cations LV-NH With mounting bracket (accessory) Slit (accessory) Area width can be selected. Lens LV-L 01* [P.1] For thicker area. LV-NH Characteristics of detecting distance and area width (typical example) Width 0 Grey slit plate 0 No slit plate 0 0 Black slit plate 0 Distance * sold separately 1

14 Retro-reflective Type Spot type Type Appearance Detecting distance (m) Spot diameter Model Small beam spot 1. MEGA :. ULTRA : SUPER : 1. TURBO : 1 FINE : 0. HSP : 0. Approx. ø. (Up to 0. m distance) LV-S1 [P.1] Standard. MEGA : ULTRA : SUPER : TURBO : FINE :. HSP : Approx. ø1. (Up to 1 m distance) LV-NH [P.1] All models support the P.R.O. function. The polarizing filter reduces direct reflected light from a mirrored-surface workpiece. Retro-reflective Type Area type Type Appearance Detecting distance (m) Area width Model Wide area MEGA : () * 1 ULTRA : () SUPER : (.) TURBO : () FINE :.(0.) Area spot: Approx. mm Small beam spot: Approx. mm (Up to 00 mm distance) LV-S [P.1] Long-distance transparent object detection 1. MEGA : * ULTRA : 0 SUPER : TURBO : FINE : Approx. mm (Up to. m distance) LV-S [P.19] All models support the P.R.O. function.the polarizing filter reduces direct reflected light from a mirrored-surface workpiece. *1 Numbers not enclosed in parentheses are the detecting distance for area spot. Numbers enclosed in parentheses are the detecting distance for small beam spot. To be used for glass detection, we recommend that the detecting distance is set to 1 m or less. * To be used for glass detection, we recommend that the detecting distance is set to. m or less. Mounting bracket (accessories/options) Reflectors LV-S1 With mounting bracket (accessory) LV-S Using the optional mounting brackets allows you to adjust the optical axis right, left, up, or down. When installing the L-shaped mounting bracket OP-0* OP-10 (R- Gray) (Included with LV-S1) R- (Included with LV-NH) R- (Included with LV-NH) LV-NH With mounting bracket (accessory) Inverse direction mounting When installing the rear mounting bracket OP-9* [ P.1] [ P.1] Reflective tape (sold separately) [ P.1] OP-19* 1 t = 0. LV-S With mounting bracket (accessory) Inverse direction mounting (The detecting distance remains unchanged even if the reflective tape is used.) *1 Less light intensity variation type (model OP-) is also available. * sold separately Characteristics When installing the side mounting bracket OP-1* Inverse direction mounting Be sure to use the dedicated mounting brackets because optical axis adjustment is required. LV-S1 Characteristics of detecting distance and spot diameter (typical example) Spot diameter Distance LV-NH Characteristics of detecting distance Spot diameter and spot diameter (typical example) 1 Distance (m) 1

15 Thrubeam type Spot type Type Appearance Detecting distance Spot diameter Model Small beam spot M 00 (Common for all power modes.) Approx. ø1. (Detecting distance: 00 mm) LV-S1 [P.] 0. Position detection M 00 (Common for all power modes.) Approx. ø (Detecting distance: 00 mm) LV-S [P.] 0. Thrubeam type Type Standard High power LV-S1 / S Detecting width Standard mounting bracket (accessory) 1. Area type Appearance Detecting distance Area width Model (Common for all power Approx. LV-NH00 modes.) 1 Approx. LV-NH0 1. Approx. LV-NH1 Mounting bracket (accessories/options) Small type mounting bracket OP-9* Set of pieces With optical-axis alignment function Optical-axis can be aligned from the upper direction. Side viewer attachment LV-F1* Set of pieces With optical-axis alignment function Optical-axis can be aligned from the upper direction. [P.] [P.] [P.] Specifi cations Specifi cations Specifi cations LV-NH00 LV-NH0 / NH1 With mounting bracket With mounting bracket With mounting bracket LV-B01* Mounted vertically Set of pieces LV-B0* Mounted horizontally Set of pieces LV-B1* Mounted vertically Set of pieces With mounting bracket LV-B* Mounted horizontally Set of pieces * sold separately

16 Sensor head specifications LV-Sxx (Spot Reflective) LV-NHxx (Spot Reflective) Type Small Small side view Adjustable distance Type Straight-beam coaxial Adjustable beam spot Ultra-small beam spot definite reflective Model LV-NH LV-NH LV-NH Model LV-S1 LV-S1L LV-S1 Part 0. FDA (CDRH) Class 1 Laser Product FDA (CDRH) Part 0. Class 1 Laser Product IEC 0-1 Class 1 Laser Product IEC 0-1 Class 1 Laser Product Light source Visible red semiconductor laser, Wavelength: 0 nm Light source Visible red semiconductor laser, Wavelength: nm MEGA 0 mm 10 mm MEGA 00 mm 0 mm ULTRA 00 mm 00 mm ULTRA 00 mm 00 mm SUPER 0 mm 0 mm SUPER 00 mm mm 0 to 0 mm 0± mm TURBO 00 mm 00 mm TURBO 00 mm mm (Adjustment range) FINE 0 mm mm FINE 0 mm mm HSP 0 mm 0 mm HSP 0 mm 1 mm Ambient temperature - to +ºC (No freezing) Ambient temperature - to +0ºC (No freezing) 0 to +0ºC (No freezing) Relative humidity to % RH (No condensation) Case Glass reinforced plastic Display Polycarbonate Case Glass reinforced plastic Lens cover Norbornene plastic Acrylic Norbornene plastic* Lens cover Norbornene plastic Acrylic* 1 Glass* 1 Weight Approx. 0 g Approx. g Weight Approx. g [P.1] [P.1] [P.1] [P.1] [P.] [P.1] * Transmitter lens: Norbornene plastic/receiver lens cover: Polyarylate *1 The LV-NH and the LV-NH receivers are polyarylate. LV-NHxx (Area Beam Reflective) LV-Sxx (Retro-reflective) LV-NHxx (Spot Retro-Reflective) Detecting distance Material Type Model FDA (CDRH) Part 0. IEC 0-1 Light source MEGA ULTRA SUPER TURBO FINE HSP Ambient temperature Relative humidity Case Detecting distance Material Lens cover Weight LV-Sxx (Spot Thrubeam) Type Small standard Small (with slit) Model LV-S1 LV-S FDA (CDRH) Part 0. Class 1 Laser Product IEC 0-1 Class 1 Laser Product Light source Visible red semiconductor laser, Wavelength: nm Detecting distance Material MEGA ULTRA SUPER TURBO FINE HSP Long-distance area LV-NH Class 1 Laser Product Class 1 Laser Product Visible red semiconductor laser, Wavelength: 0 nm 10 mm 00 mm 0 mm 00 mm mm 0 mm - to +ºC (No freezing) to % RH (No condensation) Glass reinforced plastic Polyarylate Approx. g [P.1] 00 mm Ambient temperature - to +0ºC (No freezing) Case Metal part: Stainless steel, Plastic part: Polyarylate Transmitter: Transmitter: Lens cover Norbornene plastic Norbornene plastic Receiver: Polyarylate Receiver: Glass Weight Approx. 0 g [P.] [P.] Type Model LV-S1 LV-S LV-S FDA (CDRH) Part 0. Class 1 Laser Product IEC 0-1 Class 1 Laser Product Light source Visible red semiconductor laser* 1 MEGA. m m ( m) m ULTRA m m ( m) 0 m SUPER 1. m m (. m) m TURBO 1 m m ( m) m FINE 0. m. m (0. m) m HSP 0. m Ambient temperature - to +0ºC (No freezing) Case Glass reinforced plastic Lens cover Acrylic Reflective mirror Polycarbonate, acrylic Weight Approx. 0 g Approx. g Approx. 1 g [P.1] [P.1] [P.19] * Numbers enclosed in parentheses are the detecting distance for small beam spot. *1 Wavelength: LV-S1: nm LV-S/S: 0 nm Detecting distance* Material LV-F1 Type Model Small spot Detecting distance Material Parallel light area Long-distance transparent object Side-view attachment for thrubeam LV-F1 Applicable head LV-S1 LV-S Detecting distance MEGA ULTRA SUPER TURBO FINE HSP Ambient temperature Material Vibration resistance Weight mm 00 mm - to +0ºC (No freezing) Metal part: SUS0 Mirror part: Glass to Hz, double amplitude: 1. mm hours in each of X, Y and Z axis directions Approx. g [P.] Type Small spot Model LV-NH FDA (CDRH) Part 0. Class 1 Laser Product IEC 0-1 Class 1 Laser Product Light source Visible red semiconductor laser, Wavelength: 0 nm MEGA m ULTRA m SUPER m TURBO m FINE. m HSP m Ambient temperature - to +ºC (No freezing) Case Glass reinforced plastic Lens cover Norbornene plastic Reflective mirror Polycarbonate, acrylic Weight Approx. g [P.1] Detecting distance Material LV-NHxx (Area Thrubeam) Area thrubeam Type High power High performance Model LV-NH1 LV-NH0 LV-NH00 Detecting area mm 0 mm FDA (CDRH) Part 0. Class 1 Laser Product IEC 0-1 Class 1 Laser Product Light source Visible red semiconductor laser, Wavelength: 0 nm Detecting distance mm Ambient temperature - to +ºC (No freezing) Relative humidity to % RH (No condensation) Case Glass reinforced plastic Material Lens cover Transmitter: Glass, Receiver: Polyarylate Weight Approx. g Approx. 9 g [P.] [P.] [P.] LV-L01 Specifications (lens attachment for LV-NH) (Unit: mm) Name Area Detecting distance thickness LV-L01 slit 1 is mounted slit is mounted slit is mounted slit is mounted MEGA ULTRA SUPER TURBO FINE HSP mm. 0 mm.0 0 mm. 0 mm Area width 0 mm mm Case material Polyacetal (main body) Arton (lens) Weight Approx. 1 g [P.1] Example of width x thickness of area in LV-L01 detecting distance (Unit: mm) Distance LV-NH LV-NH + black slit LV-NH + gray slit LV-L01 L01 + slit 1 L01 + slit L01 + slit L01 + slit

17 Amplifier Cable type Model Type Appearance NPN output PNP output Main unit LV-N11N LV-N11P Standard Main unit Expansion unit LV-NN LV-NP Control outputs External input Monitor output 1 0 [P.] Expansion unit Monitor output Main unit LV-N11MN M connector type Type Appearance NPN output Model PNP output Control outputs External input Monitor output Standard Zero line type Main unit Main unit LV-N11CN LV-N11CP Expansion unit Expansion unit LV-NCN LV-NCP [P.] Type Appearance Model Control outputs External input Monitor output Standard Expansion unit LV-N None* [P.] *1 Counted as one output when added to an NU Series communication unit. Specifications Type output 1 output Zero line Monitor output Cable/connector Cable M connector Cable Main/Expansion unit Main unit Expansion unit Main unit Expansion unit Expansion unit Main unit Model NPN LV-N11N LV-NN LV-N11CN LV-NCN LV-N11MN LV-N PNP LV-N11P LV-NP LV-N11CP LV-NCP Control outputs output 1 output None 1 output I/O External input 1 input 1 input None 1 input Monitor output None 1 output Response time 0 μs (HIGH SPEED)/ μs (FINE)/00 μs (TURBO)/1 ms (SUPER)/ ms (ULTRA)/1 ms (MEGA) * 0 μs cannot be selected when the LV-S1/S/S is connected Output selection LIGHT-ON/DARK-ON (switch-selectable) Timer function Timer OFF/OFF-delay timer/on-delay timer/one-shot timer, Timer duration selectable: 1 ms to 9,999 ms, Maximum error against the setting value: ±% max. Control NPN output NPN open collector 0 V, Residual voltage 1 V or less (Output current: ma or less) / V or less (Output current: to 0 ma) (Stand-alone) 1 output max: 0 ma or less, output total: 0 ma or less (Multiple connections) 1 output max: ma or less outputs PNP output PNP open collector 0 V, Residual voltage 1. V or less (Output current: ma or less) /. V or less (Output current: to 0 ma) (Stand-alone) 1 output max: 0 ma or less, output total: 0 ma or less (Multiple connections) 1 output max: ma or less Monitor output (LV-N11MN only) 1 to V voltage output; load resistance kω or more; repeat precision ±0.% of F.S.; response time: 1 ms (HIGH SPEED, FINE, TURBO), 1. ms (SUPER), 1. ms (ULTRA),. ms (MEGA) External input Input time ms (ON)/ ms (OFF) or more* 1 Multiple connections to expansion units Up to 1 units can be connected in total (two-output type is treated as two units) Protection circuit Reverse polarity protection, Over-current protection, Surge absorber Number of interference prevention units* Connected to other than LV-S1: 0 for HIGH SPEED; for FINE/TURBO/SUPER; for ULTRA/MEGA, Connected to LV-S1: for FINE; for TURBO/SUPER/ULTRA/MEGA Power voltage* VDC (operating voltage -0 VDC (with ripple)), ripple (P-P) % or less, Class or LPS* Rating Power consumption* NPN PNP *1 Input time is ms (ON)/ ms (OFF) when external calibration time is selected. * Increases 0 mw (1 ma) for HIGH SPEED mode. * If more than one unit is used together, the ambient temperature varies with the conditions below. Mount the units on the DIN rail with mounting brackets and check that the output current is ma or less for a unit. One or two more units connected: - C to + C ; to more units connected: - C to +0 C; 11 to 1 more units connected: - C to + C. When using -outputs, one unit is counted as two units. * These numbers double when DOUBLE is selected. * To connect more than 9 units, the power voltage must be V or more. * It increases by % when connected to the LV-NH0/NH1/NH00. It does not include the power consumption of the load. Power consumption when expansion units are connected is the total power consumption of each amplifier unit. Example: When one main unit (LV-N11N) is connected to expansion units (LV-NN) and they are used with LV-NH0 heads in HIGH SPEED mode. (1. 0 mw 1) + (1. 0 mw ) = 9 mw max. * Use with the over current protection device which is rated 0 V or more and not more than 1 A. I/O Circuit Diagram Normal: 0 mw or less (at 0 V. 0 ma at V, ma or less at V)* Eco on mode: mw or less (at 0 V. ma at V, ma or less at V)* Eco Full mode: 0 mw or less (at 0 V. 1 ma at V, 0 ma or less at V) Normal: 90 mw or less (at 0 V. ma at V, 0 ma or less at V)* Eco on mode: mw or less (at 0 V. 9 ma at V, ma or less at V)* Eco Full mode: 0 mw or less (at 0 V. ma at V, 0 ma or less at V) - to + C (No freezing)* Ambient temperature Relative humidity to % RH (No condensation) Vibration resistance to Hz, double amplitude: 1. mm, hours each in the X, Y and Z axis Shock resistance 00 m/s times for each of X,Y and Z axis Material Case Main unit and cover material: Polycarbonate Cable PVC Case size H. mm W 9. mm L. mm Weight Approx. g Approx. g Approx. g Approx. g Approx. g Approx. g Environmental resistance Specifi cations Specifi cations Specifi cations Cable type M connector type Monitor output type LV-N11N / NN Sensor main circuit Overcurrent protection circuit. VDC *1 LV-N11N only Brown* 1 Load Black (control output 1) White (control output ) Pink Blue* 1-0 VDC Load PLC, etc. Short-circuit current 1 ma or less 0 V LV-N11P / NP LV-N11CN / NCN LV-N11CP / NCP LV-N11MN Sensor main circuit Overcurrent protection circuit *1 LV-N11P only Brown* 1 Black (control output 1) White control output Pink Blue* 1 Load -0 VDC Load PLC, etc. Short-circuit current ma or less 0 V Sensor main circuit Overcurrent protection circuit. VDC *1 LV-N11CN only * 1-0 VDC (Control output) * 1 Load PLC, etc. Short-circuit current 1 ma or less 0 V Sensor main circuit Overcurrent protection circuit *1 LV-N11CP only * 1 (Control output) * 1-0 VDC Load PLC, etc. Short-circuit current ma or less 0 V Sensor main circuit Overcurrent protection circuit. VDC Protection circuit Brown -0 VDC Device with a kω or higher input impedance Orange monitor output PLC, etc. (1 to V) Short-circuit current Pink 1 ma or less Blue Load Black (control output) 0 V 1

18 Sensor head LV-S Series LV-S1LV-S1LV-S1L Centre of emitted light 1 Centre of received light.. 1. Distance setting indicator Operation indicator Distance setting trimmer 1. ø., -core shielded -ø. Cable length: m. L-shaped mounting bracket for the LV-S1 (accessory) Material: SUS0 t=1... Material: SUS0 t=1..1 R1.. R1 R. R.9 -ø M,P=0. * Accessory screws M, P = 0. l Material: Iron (nickel-plated).. Centre of emitted light.. Indicator. Centre of 1 9 received light ø., -core shielded Cable length: m Mounting bracket for the LV-S1 / S1L (accessory) Material: SUS0 t= (.) Centre of emitted light... Indicator Centre of received light OP ø., -core shielded. Cable length: m L-shaped mounting bracket for the LV-S1 / S1L (sold separately) Material: SUS0 1. t=1.0 * Accessory screws and nuts M, P = 0. l Material: Iron (nickel-plated) LV-S1. Indicator Centre of emitted light OP-10 Refl ector R- (Gray) (accessory) Material: SUS0 LV-S1 t=1.0 L-shaped mounting bracket (accessory) -R R -ø..1. ø., -core shielded 19. -ø. Cable length: m -ø. Material: Acrylic, polycarbonate -R. (-R1.) Material: SUS0 t= M, P=0. * Accessory screws M, P=0. l pieces Material: Iron (nickel-plated) LV-S 1.. Centre of emitted/ 1. 1 received light ø ø. Spot switching slider 19 Reflector R-L (Included with LV-S) ø. Indicator ø., -core shielded -ø. Cable length: m OP-0 LV-S L-shaped mounting bracket (sold separately) ø -R1. M Material: SUS0 t = 1. Accessory screws M, P = 0. l. 1 Material: SUS When mounting bracket is attached Centre of emitted/ received light.. (.) Centre of emitted/ received light. Material: SUS0 t =

19 CAD Data Download: Unit : mm OP-9 L-shaped mounting bracket for the LV-S (sold separately) When mounting bracket is attached 1 M screw M 1. (.) R (.) 19.. Material: SUS0 t = 1. Accessory screws M, P = 0. l Material: SUS M, P = 0. l1. 1 Material: SUS M, P = 0. l1 Material: SUS Accessory nuts M 1 Material: SUS (.) (0.9) -M (.) (.) ().. Centre of emitted/ received light 1. M screw -ø. 1. Indicator (.). (.) 1 0 OP-1 Side mounting bracket for the LV-S (sold separately) LV-S Rear mounting bracket for the LV-S (accessory). 9. ø., -core shielded Cable length: m When mounting bracket is attached Centre of emitted/ received light (.) When mounting bracket is attached Reflector R-9 (Included with LV-S) Centre of emitted/ received light... Material: SUS0 t =.0 Centre of emitted/ received light. Accessory screws M, P = 0. l0 Material: SUS Accessory nuts M Material: SUS 11 Material: SUS0 t = 1. Accessory screws M, P = 0. l1. 1 Material: SUS M, P = 0. l1 Material: SUS Accessory nuts M 1 Material: SUS. 11 -ø. Specifi cations Specifi cations Specifi cations -R. 1 9 Centre of emitted/ received light 1. ø

20 Sensor Head LV-S1 Transmitter 0. ø., -core shielded side ø. Cable length: m Lens diameter Across-flats:, t= M, P=0. SUS0 Indicator Transmitter side 0. ø. ø., -core shielded Lens diameter Cable length: m Across-flats:, t= M, P=0. SUS0 Indicator LV-S 0. Transmitter side ø. Lens diameter Across-flats:, t= M, P=0. SUS0 Indicator ø., -core shielded Cable length: m Transmitter side 1.9 ø0. 1. ø., -core shielded Slit Cable length: m Across-flats:, t= M, P=0. SUS0 Indicator LV-S1 / S Mounting bracket (accessory) -slot M screw ø.1 Material: SUS0 t=1. LV-F ø.1 9. ø A-A A-A Material: SUS0 t=1. Material: SUS0 t= A A A A (1.) (1.) M. screw M. screw M., P=0. l screws and nuts 1.1 attached Material: SUS0 OP-9 Small mounting bracket for thrubeam (sold separately) ø.1 ø (1.).9 Material: SUS0 t=1. Material: SUS0 t=1..9 (1.) M. screw M., P=0. l screws and nuts attached 1 Material: SUS0 M. screw LV-NH Series, Reflective/Retro-Reflective LV-NH. -ø. (Mounting hole). Trimmer for lock ø Centre of emitted light.. ø., -core shielded Cable length: m 1. Centre of received light Mounting bracket for the LV-NH (accessory) * Accessory screws M 1 pieces R M, P=0. Material: SUS0 t = 1. Material: SUS0 t = 1. LV-NH (with bracket) M

21 CAD Data Download: Unit : mm LV-NH/ NH Mounting bracket (accessory) LV-NH / NH (with bracket).. Centre of emitted/ received light. 9. Indicator 1. -R1.. -ø... * Accessory screws M 1 pieces -M ø., -core shielded Cable length: m -ø. (Mounting hole) R Material: SUS0 t = 1. -M, P=0. Material: SUS0 t = 1.. ReflectorR - (Included with LV-NH) LV-NH -ø. (Mounting hole) 1 () -ø. (.) 1. 0±. LV-NH Indicator Attachment mounting section. Centre of emitted light. Centre of received light ø., -core shielded -ø. Cable length: m (Mounting hole) Reference position for measurement 1 () ReflectorR - (Included with LV-NH).. -ø. Centre of emitted light. Centre of received light ø., -core shielded Cable length: m 1. Mounting bracket for the LV-NH (accessory)... ø. * Accessory screws M 1 pieces M, P=0. Material: SUS0 t = 1. Material: SUS0 t = ø. 1.. Reflective tape OP-19 OP- Mounting bracket for the LV-NH (accessory) M, P= Material: SUS0 t = 1. Material: SUS0 t = 1. * Accessory screws M 1 pieces t=0. LV-NH (with bracket).± -M 1 1 -M LV-NH (with bracket) () Indicator Specifi cations Specifi cations Specifi cations When a slit included with LV-NH is attached When LV-L01 is attached (LV-NH) Slit seal (Included with the LV-L01) Slit width 1. Slit width L Slit sticker name L slit 1. slit.0 slit 1. slit 1.1 Slit (Black) Slit (Gray) 1

22 Sensor head LV-NH0 / NH1 Transmitter Centre of emitted light. ø., -core shielded Cable length: m. Indicator ø. (Mounting hole) Receiver Indicator ø. (Mounting hole) Centre of received light. ø., -core shielded Cable length: m LV-B1 (bracket, transmitter, and receiver set for the LV-NH0 / NH1).. Material: SUS0 Plate nut for the transmitter t = 1. Supplied screws:. 0. M 1 ( pcs.) 1. Material: SUS0. t = ø.. -M, P= R Plate nut for the receiver Supplied screws: M 1 ( pcs.) Material: SUS0 t = 1. LV-B (bracket, transmitter, and receiver set for LV-NH0 / NH1) -M, P=0... M screw... R1. C ø (1.) (1.) ø. Material: SUS0 t = When the LV-NH0 / NH1 transmitter is attached (inside) (1.) (1.) (11.1) (1.) (1.) (11.1) When the LV-NH0 / NH1 receiver is attached (inside) When the LV-NH0 / NH1 transmitter is attached (outside) (.1) (.) (.) When the LV-NH0 / NH1 receiver is attached (outside) Plate nut for the transmitter M, P=0. -M, P=0. Supplied screws: M 1 ( pcs.) Material: SUS0 t = 1. Plate nut for the receiver Supplied screws: M 1 ( pcs.) Material: SUS0 t = 1. (.1) (.) (.) LV-NH00 Transmitter Indicator Centre of emitted light -ø. (Mounting hole) 1. ø., -core shielded Cable length: m Receiver. Centre of received light ø., -core shielded Cable length: m Indicator 1 -ø. (Mounting hole) LV-B01 (bracket, transmitter, and receiver set for LV-NH00) Plate nut for the transmitter -R1. Accessory screws Material: SUS0 1 t = 1..9 M 1 ( pcs.) 11. Material: SUS t = ø. -M, P=0. -R1.. Plate nut for the receiver Accessory screws M 1 ( pcs.) Material: SUS0 t = 1. -M, P=0. LV-B0 (bracket, transmitter, and receiver set for LV-NH00). C When the LV-NH00 transmitter is attached (inside) Plate nut for the transmitter M screw ø (1.) (1.). ø. 1. Material: SUS0 t = 1. (1.) (1.) (11.1) When the LV-NH00 receiver is attached (inside) (.) (.1) (.) (1.) (1.) (11.1) When the LV-NH00 transmitter is attached (outside) When the LV-NH00 receiver is attached (outside) Accessory screws M 1 ( pcs.) Material: SUS0 t = 1. -M, P=0. Plate nut for the receiver Accessory screws M 1 ( pcs.) Material: SUS0 t = 1. -M, P=0. R1... (.) (.) (.1)

23 Amplifi er CAD Data Download: Unit : mm LV-N11N / N11P / N11MN Cable type, Main unit 9. ø.9, -core Brown/Blue: 0. mm, Black/White/Pink: 0.1 mm * Cable length: m LV-NN / NP Cable type, Expansion unit ø.9, -core Black/White/Pink: 0.1 mm Cable length: m max. Maximum when the cover is opened:.. Maximum when the cover is opened:.. (.).. (.) (1) (1)... min.... min. * LV-N11MN: ø.9, -core Brown/Blue: 0. mm, Black/Orange/Pink: 0.1 mm Maximum when the cover is opened:. Maximum when the cover is opened:. LV-N11CN / N11CP M connector type, Main unit 9. ø... (.) 9... (.) ø9... (.). End unit End unit *1 L 10 max L (.) M connector ø., -core 0. mm 9.9 (9.).. ø9. ø. 0. mm ø9 ø LV-NCN / NCP M connector type, Expansion unit Maximum when the cover is opened:... (.) M connector cable (OP- / sold separately) M connector junction cable (OP-9 sold separately) Cable length L(m) OP- OP- LV-N Zero line type, Expansion unit OP-199 Conversion adaptor Common for all types When several units are connected: No. of units L *1 End units must be used when several units are connected.(op-1) 9. (1.) -ø. Spot facing: ø., d=. (1.) -ø. Spot facing: ø., d=... (.).. (0.9). (0.9) M Material: Polycarbonate When the mounting bracket is attached (OP-0 sold separately) Cable type M connector type When the end unit is attached (OP-1 sold separately) DIN-rail mounting 1 Material: Polycarbonate -(..) Spot facing: ø., d=. 9. ø. (.) Reverse side of mounting bracket M connector 9. Specifi cations Specifi cations Specifi cations

24 Digital Fibreoptic Sensor More than 0 fibre unit variations to support a wide range of applications A high-function amplifier and vast array of sensor head options provide easy solutions for the most challenging detection conditions. 1 Extensive variety of fibreoptic units The fibreoptic series has the largest selection of sensor head options which provide a vast range of installation methods and detection solutions. High power enables use in a wide range of applications With the touch of a button, light intensity can easily be switched to times the normal intensity. This high power is often needed for long-distance detection or in adverse environmental conditions where strong light intensity is required. Automatic maintenance Even if debris build-up causes the light intensity to drop, the sensor automatically detects the drop in intensity, and re-calibrates to the original display state. FUNCTION NEO Preset Simply press the PRESET button to change the light intensity display to 0 or 0 to complete the sensitivity settings. NEO MEGA switch Simply slide the MEGA switch to immediately obtain times the normal light intensity. Application function Advanced mode settings are preprogrammed into the amplifier. Simply choose a mode according to the application and the optimal settings are automatically selected. DATUM function Open field network compatibility Reduced wiring Interference prevention function Pause function Sleep function Saturation Avoidance function Avoid light interference up to 0,000 lux Strong resistance to the effects of sunlight and fluorescent lighting enables stable detection. Analogue output type (FS-N11MN)

25 The wide variety of fibre head options provide solutions to a vast range of mounting needs and application conditions. Mounting options Threaded mounting Detection options Transparent targets Oil/Water environments NEO MEGA - times the power with one switch The amplifiers are equipped with light transmission modes for increasing the light intensity when higher power is required. The most powerful of these modes is MEGA Mode. The power can be increased -fold from normal power by simply using 1 switch. [Normal] FINE Mode [ ] [ ] [1 ] [ ] TURBO Mode SUPER Mode ULTRA Mode MEGA Mode Set screw mounting Repeated bending High temperature environments times the normal light intensity with one switch! Ample light intensity can be ensured even when using small diameter fibreoptics. Integrated bracket mounting Small targets Vacuum environments Sufficient reflection can be ensured even with transparent objects Limited space mounting Variable target position Chemical environments Sufficient variation can be obtained even when distinguishing between 1 or sheets Sufficient reflection can be ensured even from black targets Specifi cations Specifi cations Specifi cations * There is also a high-speed response HSP mode. Simply slide the MEGA switch to the right

26 Automatic maintenance DATUM function The automatic maintenance function detects light intensity reduction due to dirt or misalignment, and returns the sensor to its original display state. This feature can cancel the effects of the ambient environment, enabling continuous and highly accurate detection. As build-up occurs, the setting value changes according to light intensity. Datum corrects the setting value based on a running average of this received light intensity value. Since the display values are scaled, the current value is displayed as an even 0.0 rather than an arbitrary value, making target presence evident. Conventional correction function (DSC) Light intensity display Light intensity display 09 Current 0.0 value Setting 0.0 value The current value and setting value change, making it difficult to tell whether a target is present. Time DATUM function Time Both the current and setting values remain constant on the display, making it clear whether a target is present. Saturation Avoidance function adjusts the optimum power to prevent excess light intensity When a small target is being detected by a thrubeam sensor, or when a reflective sensor experiences background reflections, the ambient light may be too strong and might interfere with accurate target detection. In this case, simply press two buttons, and this function will automatically adjust the light intensity to the optimum level. Excess light intensity causes the display value to go off the scale. Light transmission level and light intensity gain are automatically calibrated so stable detection can be achieved. Target present No target Target present No target Use the Saturation Avoidance function in the following examples Simply press MODE and SET at the same time. SET Button MODE Button [Area / Thrubeam model] Target is small / thin Light travels around the target. [Reflective model] Background reflection is strong The difference in light intensity may be lost. Power-saving Sleep function This function holds the amplifier in a power save state during external signal input. The normal display is restored after any key is pressed. Once sleep mode is entered, light transmission is stopped and the display monitor switches off. A single segment on the digital monitor pulses across the display.

27 KEYENCE Reduced wiring link Conventional sensors can also be connected for a dramatic reduction in wiring and installation time. By using the OP-199 conversion connector on conventional KEYENCE sensors, the NEO Series sensors can easily be connected to significantly reduce wiring and installation time. <Example connection of NEO Series and conventional sensors> 1 Connection method supporting open field networks 1 Conventional sensors Support for open field networks via the sensor input unit FS-NEO Series LV-NEO Series PS-NEO Series OP-199 CZ-V Series ES Series AP-V Series The NEO Series is able to support open field networks by using the NU Series 1. Conventional sensors 9 are supplied with power simply by connecting expansion units. The sensor output information can be transmitted by connecting e-con to the NU-ENN sensor input unit. Conventional sensors NU Series LV-NEO Series FS-NEO Series PS-NEO Series NU-ENN OP-199 ES Series AP-V Series CZ-V Series Specifi cations Specifi cations Specifi cations

28 LINEUP Fibre unit variation supports a vast range of detecting conditions Standard/Simple Mounting Threaded and Hex-shaped Fibres Threaded for easy mounting onto brackets and machine equipment. Cylindrical (Set Screw Installation) Suitable for installation in locations where space is limited. Installed by drilling a hole and using a set screw. Integrated bracket The sensor is integrated into an L-shaped bracket, which simplifies installation. Thrubeam type P.9 Reflective model P. Thrubeam type P.9 Reflective model P. Thrubeam type P.0 Reflective model P. Small Spot/Focused Beam Small Spot Reflective Great for small object detection. Spot size and focal distance are adjustable, so there is no need to change the distance between the sensor and the target. Reflective model P. Focused Beam/High power Use of a lens reduces the field of view based on the aperture angle. This narrow beam helps avoid deflection and is suitable for detecting objects at longer distances. Thrubeam type P.0 Reflective model P. Transparent object detection Retro-reflective Effective for detecting transparent objects. The beam passes through the (transparent) target twice, so light attenuation increases. Retro-reflective Type P.0 Definite-reflective Detects within a fixed range. Reduces background effects and features a space-saving, thin profile design. Reflective model P. Small space Environment-proof Dedicated application Flat Bracket Fibres This thin profile sensor comes with mounting holes for installation where space is limited. Thrubeam type Oil/Chemical Resistant The PTFE coating allows these fibres to be used in almost any environment, including oil or chemical-splash conditions. Thrubeam type Area The wide-area beam is ideal for applications where there is variance in target position and for detecting multiple shapes or moving targets. Thrubeam type P.1 P. P. Reflective model Reflective model Reflective model P. P. P.0 Sleeve The thin sleeve design eliminates problems caused by limited mounting space and allows the sensor to be placed closer to the target. Lineup includes side-view and bendable sleeve types. Thrubeam type High-flex Provides higher flexibility than an electric wire. Resistant to 0 million bends! Thrubeam type Liquid-level Accurate liquid level detection sensors are available in transparent tube-mount or immersion type models. Reflective model P.1 P. P.0 Reflective model Reflective model P. P.9 Heat Resistant Ideal for use in high temperature applications. Withstands temperatures up to 0 C. Thrubeam type Vacuums Can be used in vacuum and high temperature environment. Thrubeam type P. P.1 Reflective model P.9 Amplifiers P. Cable Type M connector Type Zero line Type

29 Thrubeam type Standard/Simple Mounting Type Threaded and Hexshaped Fibres Threaded fi bres must be mounted onto brackets before use. Benefits! With the hex-shaped fi bre, one end is secured with a nut, making installation easier. Stainless steel braided cable is recommended in areas where the fi bre can be damaged due to machine operator activity. Cylindrical (Set Screw Installation) Installed by drilling a hole and using a set scr ew. Suitable for installation in locations where space is limited. M M Size/Shape Hexshaped Fibre unit length (Diameter) Ambient temperature Appearance m (ø.) -0 to +0 C M R 1. 1 m cut not allowed -0 to +0 C M M M 1 M 1 m cut not allowed -0 to +0 C Threaded M Threaded Size ø1.0 ø1. m (ø1.) -0 to +0 C M 0 cm cut not allowed -0 to +0 C ø1 1 1 m (ø1.0) ø1-0 to +0 C R High-flex 1 m (ø1.0) ø1. -0 to +0 C R High-flex ø1. 0 cm cut not allowed -0 to +0 C ø. 0 cm cut not allowed -0 to +0 C ø. ø0. Do not bend sleeve m (ø.) -0 to +0 C ø m (ø.) -0 to +0 C ø 1 Cable bend radius R Stainless Steel m (ø.) -0 to +0 C R0. m (ø.) -0 to +0 C m (ø.) FU-1Z: -0 to +0 C FU-1: -0 to +0 C Fibre unit length (Diameter) Ambient temperature Appearance 1 m (ø1.0) -0 to +0 C R R Stainless Steel R R R R Cable bend radius R R High-flex Detecting distance * 1 MEGA FINE MEGA : 0 FINE : 0 MEGA : 100 FINE : 0 Lens attachment [P.] MEGA : 00 FINE : 0 MEGA : 100 FINE : 0 Lens attachment [P.] MEGA : 00 FINE : 10 Lens attachment [P.] MEGA : 0 FINE : 0 Lens attachment [P.] MEGA : 00 FINE : 10 MEGA : 00 FINE : 100 Other power modes ULTRA : SUPER : 100 TURBO : 0 HSP : ULTRA : 100 SUPER : 100 TURBO : 0 HSP : ULTRA : 000 SUPER : 100 TURBO : 100 HSP : 0 ULTRA : 100 SUPER : 100 TURBO : 100 HSP : 0 ULTRA : 0 SUPER : 0 TURBO : 00 HSP : 0 ULTRA : 100 SUPER : 0 TURBO : 00 HSP : ULTRA : 00 SUPER : 0 TURBO : 0 HSP : 90 ULTRA : 00 SUPER : 0 TURBO : 100 HSP : 0 Detecting distance * 1 MEGA FINE MEGA : 90 FINE : 10 MEGA : 0 FINE : MEGA : 90 FINE : 10 MEGA : 10 FINE : Other power modes ULTRA : 0 SUPER : 00 TURBO : 10 HSP : ULTRA : 0 SUPER : 10 TURBO : 1 HSP : 0 ULTRA : 0 SUPER : 00 TURBO : 10 HSP : ULTRA : SUPER : 90 TURBO : HSP : 10 Optical axis diameter (Standard target to be detected) *1 When using the FS-N Series. 00 mm is assumed as maximum because the fibre cable has a length of m. * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. ø. ø R R R MEGA : FINE : 1 MEGA : 00 FINE : 0 MEGA : 00 FINE : 10 ULTRA : SUPER : TURBO : 1 HSP : ULTRA : 000 SUPER : 100 TURBO : 100 HSP : 0 ULTRA : 0 SUPER : 0 TURBO : 00 HSP : 0 ø1.1 ø1 ø1. Optical axis diameter (Standard target to be detected) ø0. ø0. ø0. ø0. ø0. *1 When using the FS-N Series. 00 mm is assumed as maximum because the fibre cable has a length of m. * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. ø1.1 ø1 Minimum Detectable object * ø0.00 Minimum Detectable object * ø0.00 Model / Weight FU-TZ Approx. g FU-TG Approx. g FU-V Approx. g FU- Approx. 1 g FU-G Approx. 9 g FU-F Approx. 1 g FU- Approx. 9 g FU-1Z Approx. g FU-1 Approx. g Model / Weight FU-U Approx. g FU- Approx. g FU-9U Approx. g FU-9 Approx. g FU- Approx. g FU- Approx. g FU-FZ Approx. 19 g FU-F Approx. 19 g [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] Specifi cations Specifi cations Specifi cations 9

30 Thrubeam/Standard/Simple Mounting Type Integrated bracket Beam emitting direction Optical axis height Fibre unit length (Diameter) Ambient temperature Appearance Cable bend radius Detecting distance * 1 MEGA FINE Other power modes Optical axis diameter (Standard target to be detected) Minimum Detectable object * Model / Weight mm m (ø.) -0 to +0 C.. -ø. 1 FU-L1Z Approx. 0 g The bracket and sensor are integrated. Top mm m (ø.) -0 to +0 C 1. -ø. 1 MEGA : 0 FINE : 0 ULTRA : 100 SUPER : 00 TURBO : 0 HSP : 90 ø1.1 ø0.00 FU-LZ Approx. 0 g [P.0] Benefits! Eliminate concerns about bracket design, bracket and sensor assembly, or loose brackets. Integrated designs reduce space requirements. Top (Built-in lens) mm mm m (ø.) -0 to +0 C. -ø. m (ø.) -0 to +0 C 1 1 -ø. 1 R MEGA : 00 FINE : 0 ULTRA : 00 SUPER : 00 TURBO : 00 HSP : ø. ø0. FU-LZ Approx. 0 g FU-L0Z Approx. 0 g [P.0] Side mm -ø. 1 m (ø.) -0 to +0 C.. MEGA : 1900 FINE : ULTRA : 00 SUPER : 900 TURBO : 00 HSP : 0 ø1.1 ø0.00 FU-LZ Approx. 0 g [P.0] *1 When using the FS-N Series. 00 mm is assumed as maximum because the fibre cable has a length of m. * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. Thrubeam type Small Spot/Focused Beam Type Focused Beam / High power Beam emitting direction Aperture angle Fibre unit length (Diameter) Ambient temperature Appearance Cable bend radius Detecting distance * 1 MEGA FINE Other power modes Optical axis diameter (Standard target to be detected) Minimum Detectable object * Model / Weight m (ø1.0) FU-1Z: -0 to +0 C FU-1/1: -0 to +0 C R MEGA : 00 FINE : 1 ULTRA : 00 SUPER : 0 TURBO : 100 HSP : 0 FU-1Z Approx. g [P.] Approx. Use of a lens narrows beam width and helps avoid deflection. Side ø 1 1 MEGA : 00 FINE : 1900 ULTRA : 00 SUPER : 00 TURBO : 00 HSP : 00 ø. ø0.1 FU-1 Approx. g [P.] Approx. R MEGA : 00 FINE : 0 ULTRA : 00 SUPER : 000 TURBO : HSP : 90 FU-1 Approx. g [P.] Approx. m (ø1.0) -0 to +0 C 1. MEGA : 100 FINE : 0 ULTRA : 900 SUPER : 0 TURBO : 0 HSP : ø1 ø0.0 FU-1M Approx. g [P.] Top Approx. m (ø1.0) -0 to +0 C. R MEGA : 00 FINE : 00 ULTRA : 00 SUPER : 00 TURBO : 00 HSP : 0 ø. ø0.1 FU-0 Approx. g [P.] *1 When using the FS-N Series. 00 is assumed as maximum because the fibre cable has a length of m. * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. 0

31 Thrubeam type Space-Saving Type Flat Bracket Fibres Beam emitting direction Fibre unit length (Diameter) Ambient temperature Appearance Cable bend radius Detecting distance * 1 MEGA FINE Other power modes Optical axis diameter (Standard target to be detected) Minimum Detectable object * Model / Weight 1 m (ø1.0) -0 to +0 C -ø.1 Thickness MEGA : FINE : 10 ULTRA : SUPER : 0 TURBO : HSP : 90 ø0. FU-1TZ Approx. g [P.] Thin bracket-shaped design for mounting in limited spaces. Benefits! Metal housing eliminates concern about damaged sensors. The sensor and case form a flat surface, so there are no openings where dust and other foreign matter can enter. FU-1TZ/TZ can also be used as sideview fi bres. Sleeve The fi bre tip is incorporated into a thin sleeve. Benefits! Some long sleeve fi bres allow for bending. (See the dimensions diagram for bend radius) Top Side Flat FU-1TZ m (ø1.) -0 to +0 C -ø. Thickness. 1 m (ø1.0) -0 to +0 C. -ø.1 Thickness. 1 m (ø1.0) -0 to +0 C 1 -ø.1 Thickness m (ø.) -0 to +0 C Thickness FU-TZ 1 m (ø1.) -0 to +0 C ø. ø0. 1 -M 1 Do not bend sleeve m (ø.) -0 to +0 C ø ø1. Min. bend radius of sleeve: R m (ø.) M -0 to +0 C ø1. Min. bend radius of sleeve:r 1 m (ø1.0) -0 to +0 C M ø0. Do not bend sleeve 1 m (ø1.0) ø -0 to +0 C ø0. Min. bend radius of sleeve: R 0 cm cut not allowed -0 to +0 C ø. ø0. Do not bend sleeve R MEGA : 900 FINE : MEGA : 0 FINE : 10 MEGA : 00 FINE : 10 MEGA : 900 FINE : ULTRA : 1900 SUPER : 10 TURBO : 0 HSP : ULTRA : 0 SUPER : TURBO : 0 HSP : 0 ULTRA : 0 SUPER : TURBO : 10 HSP : 0 ULTRA : 1900 SUPER : 10 TURBO : 0 HSP : *1 When using the FS-N Series. * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. Beam emitting direction Side Top Fibre unit length (Diameter) Ambient temperature Appearance Cable bend radius R R Detecting distance * 1 MEGA FINE MEGA : FINE : 0 MEGA : 0 FINE : 0 MEGA : 00 FINE : 10 MEGA : 90 FINE : 10 MEGA : 0 FINE : MEGA : FINE : 1 Other power modes ULTRA : 0 SUPER : TURBO : HSP : ULTRA : 10 SUPER : 0 TURBO : 0 HSP : 10 ULTRA : 0 SUPER : 0 TURBO : 00 HSP : 0 ULTRA : 00 SUPER : 0 TURBO : HSP : ULTRA : SUPER : 10 TURBO : 1 HSP : 0 ULTRA : SUPER : TURBO : 1 HSP : *1 When using the FS-N Series. 00 mm is assumed as maximum because the fibre cable has a length of m. * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. ø1 ø0. ø1 Optical axis diameter (Standard target to be detected) ø0. ø1 ø0. ø0. ø0. ø0.00 Minimum Detectable object * ø0.00 FU-TZ Approx. g FU-TZ Approx. g FU-TZ Approx. g FU-TZ Approx. g Model / Weight FU- Approx. g FU- Approx. 1 g FU- Approx. g FU-F Approx. g FU-F Approx. g FU- Approx. g [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] Specifi cations Specifi cations Specifi cations 1

32 Thrubeam type Environment-proof Oil/Chemical Resistant Beam emitting direction Fibre unit length (Diameter) Ambient temperature Appearance Cable bend radius Detecting distance * 1 MEGA FINE Other power modes Optical axis Minimum diameter Detectable object (Standard target * to be detected) Model / Weight Top m (ø.) -0 to +0 C ø MEGA : 00 FINE : 0 m (ø.) -0 to +0 C MEGA : 00 R0. FINE : 00 ø. ULTRA : 00 SUPER : 00 TURBO : 00 HSP : 100 ULTRA : 00 SUPER : 00 TURBO : 00 HSP : 0 ø. ø0. ø FU-9 Approx. 1 g FU-9 Approx. 0 g [P.] Sensor is encased in fl uorocarbon resin. Side m (ø.) -0 to +0 C ø MEGA : 00 FINE : 10 m (ø.) 0 to +0 C 1 R* MEGA : 00 FINE : 00 Thickness 1. ULTRA : 00 SUPER : 000 TURBO : 0 HSP : ULTRA : 00 SUPER : 00 TURBO : 00 HSP : 0 ø. ø0.1 ø. ø0. FU-9 Approx. 1 g FU-9T Approx. g [P.9] High-flex *1 When using the FS-N Series. 00 mm is assumed as maximum because the fibre cable has a length of m. * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. * mm from the end of screw cap of the housing cannot be bent. Size ø1.0 Fibre unit length (Diameter) Ambient temperature Appearance 1 m (ø1.0) -0 to +0 C ø1 Cable bend radius Detecting distance * 1 MEGA FINE Other power modes Optical axis Minimum diameter Detectable object (Standard target * to be detected) Model / Weight FU-U Approx. g [P.] Suited for use with moving parts. ø1. M 1 m (ø1.0) -0 to +0 C ø1. 1 m (ø1.0) -0 to +0 C M R High-flex MEGA : 90 FINE : 10 ULTRA : 0 SUPER : 00 TURBO : 10 HSP : ø0. ø0.00 FU-9U Approx. g FU-9U Approx. g [P.] [P.] M Built-in lens ø1. M 1 m (ø1.0) M -0 to +0 C MEGA : 100 FINE : 0 1 ULTRA : 100 SUPER : 100 TURBO : 10 HSP : 0 ø. ø0.1 FU-0U Approx. g 1 m (ø1.0) -0 to +0 C ø1. FU-9 ULTRA : Approx. g MEGA : 10 SUPER : 90 1 m (ø1.0) FINE : TURBO : -0 to +0 C M R HSP : 10 FU-9 ø0. ø0.00 High-flex Approx. g [P.] [P.] [P.] Heat Resistant Suited for use at high temperatures of up to 00 C... 1 m (ø1.0) -0 to +0 C. * 1 When using the FS-N Series. * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. Heat resistant temperature* 0 C* C* 0 C* 10 C* 0 C 00 C Fibre unit length (Diameter) Ambient temperature Appearance m (ø.) MEGA : 00-0 to +0 C R FINE : 0 Lens M attachment [P.] m (ø.) MEGA : 00-0 to + C FINE : 10 R Lens M attachment [P.] m (ø.) -0 to +0 C MEGA : 00 R 1 FINE : M m (ø.) -0 to +10 C MEGA : 00 R 1 FINE : 0 M m cut not allowed -0 to +0 C M m cut not allowed -0 to +00 C M Cable bend radius R R MEGA : 0 FINE : 1 ULTRA : 90 SUPER : 90 TURBO : 10 HSP : Detecting distance * 1 MEGA FINE MEGA : 100 FINE : 90 Lens attachment [P.] Other power modes ULTRA : 0 SUPER : 0 TURBO : 900 HSP : 90 ULTRA : 0 SUPER : 0 TURBO : 00 HSP : 0 ULTRA : 100 SUPER : 10 TURBO : HSP : 0 ULTRA : 1900 SUPER : 10 TURBO : 90 HSP : 0 ULTRA : 100 SUPER : 900 TURBO : 0 HSP : Optical axis Minimum diameter Detectable object (Standard target * to be detected) FU-TE Approx. g Model / Weight *1 When using the FS-N Series. 00 mm is assumed as maximum because the fibre cable has a length of m. * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. * Use the fibreoptic sensor under dry conditions. Allow some margin for the temperature upper limit when selecting a heat-resistant fibre unit. * The recommended maximum ambient temperature during operation is 90 C when constantly using a fibre unit in a high-temperature environment. * The recommended maximum ambient temperature during operation is 10 C when constantly using a fibre unit in a high-temperature environment. * The recommended maximum ambient temperature during operation is 0 C when constantly using a fibre unit in a high-temperature environment. ø1 ø1. ø1 ø0.00 FU-Z Approx. g FU-A Approx. g FU-H Approx. g FU- Approx. g FU-K Approx. 0 g FU-C Approx. g [P.] [P.] [P.] [P.] [P.] [P.] [P.]

33 Thrubeam type Dedicated application type Area Useful in situations where target position varies. -0 to +0 C Tip: ø. Tip: ø 9. Tip: ø Type Array Area Thrubeam Lens Options Type Ultra-long detecting distance Small-field Aperture Angle: Approx. Long detecting Aperture Angle: Approx. With mounting holes Side view Side view 9..9 Locking Nut Detecting width Thickness Thickness Thickness Thickness. mm m (ø.) -0 to +0 C mm. m (ø.) -0 to +0 C Thickness mm m (ø.) -0 to +0 C. mm Fibre unit length (Diameter) Ambient temperature Appearance m (ø.) -0 to +0 C mm m (ø.) -0 to +0 C Cable bend radius Detecting distance * 1 MEGA FINE R* MEGA : 0 FINE : 0 R MEGA : 00 FINE : 100 MEGA : 00 FINE : 00 MEGA : 00 FINE : 00 Slit for FU-E0 (sold separately) Model With OP- attached With OP- attached Beam size 0 0. mm 0. mm MEGA 00 0 Detecting ULTRA 100 distance SUPER by power mode TURBO 0 00 * 1 FINE 10 HSP Weight (pair) Approx. g Other power modes ULTRA : 100 SUPER : 0 TURBO : 0 HSP : 0 ULTRA : 0 SUPER : 0 TURBO : 100 HSP : 0 ULTRA : 00 SUPER : 00 TURBO : 00 HSP : 100 ULTRA : 00 SUPER : 00 TURBO : 00 HSP : 0 *1 When using the FS-N Series. 00 mm is assumed as maximum because the fibre cable has a length of m. * R for the first mm of cable from the housing. *1 When using the FS-N Series. 00 mm is assumed as maximum because the fibre cable has a length of m. Ambient temperature / Appearance -0 to +00 C -0 to + C -0 to +0 C* Model / Weight F- Approx. 1 g F- Approx. g F- Approx. g F-1 Approx. g Set of [P.0] Set of [P.0] Set of [P.0] Set of [P.0] Applicable fibre units FU-TZ/V/ OP- *1 00 mm (100 mm) is assumed as maximum because the fibre cable has a length of m (1 m). * When using the F-1 at a temperature of 0 C or more, specify the Heat-resistant F-1. Heat-resistant F-1 must be used in a constant temperature. Optical axis diameter Approx. 0. Approx Model / Weight FU-A0 Approx. g FU-A Approx. g FU- Approx. g FU-E11 Approx. g FU-E0 Approx. 0 g OP- [P.9] [P.9] [P.] [P.9] [P.9] Detecting distance * 1 MEGA ULTRA SUPER TURBO FINE HSP 00 FU-F 00 0 FU- 0 FU-G/TG 100 FU-TZ/V//C/K 00 FU-F/A 00 0 FU-Z FU FU-G/TG 100 FU-V/ 0 FU-F/A 0 00 FU-Z 900 FU- 0 FU-G 100 FU-V/ FU-G FU-F/A FU-Z FU-/C/K Specifi cations Specifi cations Specifi cations

34 Reflective model Standard/Simple Mounting Type Threaded and Hexshaped Fibres Size/Shape Hexshaped Detecting Arrangement Fibre unit length (Diameter) Ambient temperature Appearance 1 m (ø1. ) -0 to +0 C 1 m (ø1. ) -0 to +0 C 1 m (ø1. ) Spiral 0 cm -0 to +0 C M M M Cable bend radius MEGA : 00 FINE : 0 Lens attachment [P.] R R Stainless Steel Detecting distance * 1 MEGA Other power FINE modes MEGA : 0 FINE : Lens attachment [P.] ULTRA : 0 SUPER : 10 TURBO : 1 HSP : ULTRA : 90 SUPER : 190 TURBO : 1 HSP : Minimum detectable object * Model / Weight FU-TZ Approx. g FU-FZ Approx. g FU-FG Approx. g [P.] [P.] [P.] Threaded fi bres must be mounted onto brackets before use. M Threaded Coaxial 1 m (ø1. ) -0 to +0 C 0 cm cut not allowed FU-1X: -0 to +0 C FU-X: -0 to +0 C M R MEGA : 0 FINE : 1 Lens attachment [P.] MEGA : 10 FINE : Lens attachment [P.] ULTRA : 00 SUPER : TURBO : HSP : ULTRA : 90 SUPER : TURBO : 0 HSP : FU-FA Approx. g FU-1X Approx. g [P.] [P.] M R MEGA : 0 FINE : 1 Lens attachment [P.] ULTRA : SUPER : TURBO : HSP : FU-X Approx. g [P.] M Hexshaped Threaded Parallel m (ø1. ) -0 to +0 C 1. m (ø1. ) FU-Z: -0 to +0 C FU-: -0 to +0 C M M R R MEGA : 0 FINE : 10 MEGA : 0 FINE : 190 MEGA : 10 FINE : 00 ULTRA : SUPER : TURBO : HSP : 0 ULTRA : 0 SUPER : 0 TURBO : HSP : 0 ULTRA : 0 SUPER : 0 TURBO : HSP : 10 FU-TZ Approx. g FU-Z Approx. g FU- Approx. g [P.] [P.] [P.] Hexshaped Parallel Coaxial m (ø. ) -0 to +0 C 1 m cut not allowed -0 to +0 C 1 m cut not allowed -0 to +0 C. 1. M M M R R Stainless Steel MEGA : FINE : MEGA : 00 0 FINE : Lens attachment [P.] ULTRA : 0 SUPER : 0 TURBO : HSP : 90 ULTRA : 0 SUPER : 10 TURBO : 1 HSP : ø0.00 Gold wire FU-TZ Approx. g FU-TG Approx. g FU-TG Approx. g [P.] [P.] [P.] m (ø. ) -0 to +0 C 1 M R0. MEGA : 900 FINE : ULTRA : 0 SUPER : 90 TURBO : HSP : 1 FU-V Approx. g [P.] M Threaded Parallel m (ø. ) -0 to +0 C m (ø. ) -0 to +0 C 1 1 M M R 1 m cut not allowed -0 to +0 C 1 R Stainless M Steel MEGA : 10 FINE : 00 MEGA : 900 FINE : ULTRA : 900 SUPER : 90 TURBO : 0 HSP : 10 ULTRA : 0 SUPER : 90 TURBO : HSP : 1 FU-1Z Approx. g FU- Approx. 1 g FU-G Approx. 9 g [P.] [P.] [P.] m (ø. ) -0 to +0 C 1 M MEGA : 100 FINE : 0 ULTRA : 00 SUPER : TURBO : 00 HSP : FU-1 Approx. 1 g [P.] m (ø. ) -0 to +0 C 1 M R MEGA : 10 FINE : 00 ULTRA : 0 SUPER : 0 TURBO : HSP : 10 FU-F Approx. 1 g [P.] Coaxial m (ø. ) -0 to +0 C 1 M MEGA : FINE : ULTRA : 0 SUPER : TURBO : 0 HSP : 10 FU- Approx. 1 g [P.] *1 When using the FS-N Series. Standard target: White mat paper (Reflective type only.) * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. See P. for specifications when a reflective lens is attached.

35 Refl ective/standard/simple Mounting Type Cylindrical (Set Screw Installation) Size ø1. Fibre unit length (Diameter) Ambient temperature Appearance 1 m cut not allowed -0 to +0 C 1 m cut not allowed -0 to +0 C ø0. ø1. ø1. Do not bend sleeve Cable bend radius R High-flex R Detecting distance * 1 MEGA FINE MEGA : 0 FINE : MEGA : FINE :. Other power modes ULTRA : 0 SUPER : 0 TURBO : HSP : ULTRA : 1 SUPER : 1 TURBO : HSP :. Minimum detectable object * Model / Weight FU-9X Approx. g FU- Approx. g [P.] [P.] Installed by drilling a hole and using a set scr ew. Suitable for installation in locations where space is limited. Integrated Bracket The bracket and sensor are integrated. ø ø. ø 1 m (ø1.0 ) -0 to +0 C R High-flex ø 0 cm cut not allowed 1-0 to +0 C ø. ø1. Do not bend sleeve m (ø1. ) FU-FZ: -0 to +0 C FU-F: -0 to +0 C 1 ø 1 m (ø1.0 ) -0 to +0 C R ø High-flex m (ø1.0 ) -0 to +0 C 0 cm cut not allowed -0 to +0 C 1 ø ø 0 cm cut not allowed -0 to +0 C ø ø0. Do not bend sleeve *1 When using the FS-N Series. Standard target: White mat paper (Reflective type only.) * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. Beam emitting direction Top 1 1 -ø. MEGA : 10 FINE : 0 ULTRA : 1 SUPER : 0 TURBO : 0 HSP : 1 *1 When using the FS-N Series. Standard target: White mat paper (Reflective type only.) * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. Benefits! Optical axis height Fibre unit length (Diameter) Ambient temperature Appearance m (ø.) -0 to +0 C mm 1 R R R R High-flex R R Cable bend radius R Eliminate concerns about bracket design, bracket and sensor assembly, or loose brackets. Integrated designs reduce space requirements. MEGA : FINE : MEGA : 0 FINE : 190 MEGA : 10 FINE : 00 MEGA : 10 FINE : 0 MEGA : 90 FINE : MEGA : 0 FINE : 10 MEGA : FINE : 1 ULTRA : 9 SUPER : TURBO : HSP : ULTRA : 0 SUPER : 0 TURBO : HSP : 0 ULTRA : 0 SUPER : 0 TURBO : HSP : 10 ULTRA : 1 SUPER : 0 TURBO : 0 HSP : 1 ULTRA : 0 SUPER : 10 TURBO : 0 HSP : ULTRA : 0 SUPER : 0 TURBO : HSP : 10 ULTRA : SUPER : 0 TURBO : HSP : Detecting distance * 1 MEGA FINE MEGA : 0 FINE : 10 Other power modes ULTRA : 0 SUPER : 0 TURBO : HSP : 90 ø0.00 Gold wire Minimum detectable object * ø0.00 FU-9U Approx. g FU-X Approx. g FU-FZ Approx. g FU-F Approx. g FU-U Approx. g FU- Approx. g FU-X Approx. g FU-X Approx. g Model / Weight FU-L1Z Approx. g [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.0] Specifi cations Specifi cations Specifi cations

36 Reflective model Small Spot/Focused Beam Type SmallS pot Reflective Adjustable Beam Spot/Built-in Lens Fibre Unit Type Adjustable beam spot Spot diameter Focal distance ø0.9 to. to 0 Fibre unit length (Diameter) Ambient temperature Appearance m (ø1. ) -0 to +0 C M. to 1. Model / Weight FU- Approx. g Minimum bend radius R [P.] Adjustable Beam Spot/Lens + Fibre Unit Great for small object detection. Type Side view Adjustable beam spot Spot diameter Focal distance ø0. to to 0 Lens Appearance Weight Ambient temperature: -0 to +0 C.. Approx. g Model F-HA Fibre Unit Minimum bend radius Appearance R [P.0] R Stainless Steel R Model FU-FZ FU-FG FU-FA [P.1] Parallel Beam Spot/Lens + Fibre Unit Type Spot diameter Lens Appearance Weight Model Fibre Unit Detecting distance * 1 Minimum bend radius MEGA Other power Model Appearance FINE modes Parallel beam Approx. ø (at 0 to mm distance) Ambient temperature: -0 to +0 C Tip: ø. 9. Approx. g F-HA [P.0] R R Stainless steel R R R Stainless Steel FU-FZ FU-FG FU-FA FU-TZ FU-TG MEGA : FINE : MEGA : FINE : MEGA : 0 FINE : ULTRA : SUPER : TURBO : 0 HSP : ULTRA : SUPER : TURBO : 0 HSP : ULTRA : 0 SUPER : 0 TURBO : HSP : [P.1] *1 When using the FS-N Series. Standard target: White mat paper (Reflective type only.) Small Beam Spot/Lens + Fibre Unit Type Spot diameter Approx. ø0.1 Focal distance Lens Appearance Weight Ambient temperature: -0 to +0 C Model Fibre Unit Minimum bend radius Appearance R Model FU-X Approx. ø0. R FU-1X R FU-FZ ± Tip: ø. F-HA [P.0] R Stainless Steel FU-FG Approx. ø0. Approx. 1 g. R R FU-FA FU-TZ R Stainless Steel FU-TG Ambient temperature: -0 to +0 C R FU-FZ Small spot R Stainless Steel FU-FG [P.1] Approx. ø0. ± Tip: ø. F-HA [P.0] R FU-TZ Approx. g R Stainless Steel R FU-TG FU-FA Approx. ø1.0 Ambient temperature: -0 to +0 C R FU-1X Approx. ø.0 ± Tip: ø. Approx. g F-HA [P.0] R R Stainless Steel R R FU-FZ FU-FG FU-TZ FU-FA Small Beam Spot/Built-in Lens Fibre Unit Type Small spot Spot diameter Approx. ø0.1 Focal distance Fibre unit length (Diameter) Ambient temperature Appearance 0 cm cut not allowed Tip: ø -0 to +0 C 1 Model / Weight FU- Approx. g Minimum bend radius R [P.] * Cannot be used with the FS-N Series HIGH SPEED mode.

37 Refl ective/small Spot/Focused Beam Type Focused Beam/ High power Use of a lens reduces beam width and helps avoid deflection. Beam Aperture emitting angle direction Top Approx. Fibre unit length (Diameter) Ambient temperature Appearance m Thickness. (ø. ) -0 to +0 C 1 1 m cut not allowed Thickness. -0 to +0 C 1 Cable bend radius R R Stainless Steel Detecting distance * 1 MEGA FINE MEGA : 0 to 0 FINE : 0 to 90 Other power modes ULTRA : 0 to 0 SUPER : 0 to 0 TURBO : 0 to HSP : 0 to *1 When using the FS-N Series. Standard target: White mat paper (Reflective type only). * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. Minimum detectable object * ø0. Copper wire (vertical) Model / Weight FU-0 Approx. g FU-0G Approx. 0 g [P.] [P.] Reflective model Transparent object detection type Definitereflective Features a limited detection range. Benefits! Thin size allows installation where space is limited. Since the effects of the background are minimized, stable detection is possible in complex environments. The FU- is a small spot type, which is great for small object detection. Reflective model FlatB racket Fibres Bracket-shaped design is thinner than ever. Benefits! Metal housing eliminates concern about damaged sensors. The sensor and case form a flat surface, so there are no openings where dust and other foreign matter can enter. Beam emitting direction Top Side Flat Fibre unit length (Diameter) Ambient temperature Appearance m (ø. ) -0 to +0 C. R 19 1 Thickness m (ø1.0 ) -0 to +0 C Thickness m (ø1.0 ) -0 to +0 C Thickness m (ø1.0 ) -0 to +0 C m 1 (ø. ) -0 to +0 C R Thickness. m (ø. ). -0 to +0 C R Thickness. 9 m (ø1.0 ) -0 to +0 C R Thickness. 9 *1 When using the FS-N Series. Standard target: White mat paper (Reflective type only). * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. Space-Saving Type Beam emitting direction Top 1 m (ø1.0 ) -ø.1-0 to +0 C Cable bend radius R Fibre unit length (Diameter) Ambient temperature Appearance. Thickness Detecting distance * 1 MEGA FINE MEGA : to 0 FINE : to 0 MEGA : center of detecting distance FINE : center of detecting distance MEGA : center of detecting distance FINE : center of detecting distance MEGA : 0 to FINE : 0 to MEGA : to FINE : to MEGA : 0 to FINE : 0 to MEGA : 0 to 1 FINE : 0 to 1 Cable bend radius Other power modes ULTRA : to 0 SUPER : to TURBO : to HSP : ULTRA : center of detecting distance SUPER : center of detecting distance TURBO : center of detecting distance HSP : center of detecting distance ULTRA : center of detecting distance SUPER : center of detecting distance TURBO : center of detecting distance HSP : center of detecting distance ULTRA : 0 to SUPER : 0 to TURBO : 0 to HSP : ±1. ULTRA : to SUPER : to TURBO : to HSP : to ULTRA : 0 to SUPER : 0 to TURBO : 0 to HSP : ULTRA : 0 to 1 SUPER : 0 to 1 TURBO : 0 to 1 HSP : 0 to Detecting distance * 1 MEGA FINE MEGA : 1 to FINE : 1 to Other power modes ULTRA : 1 to 1 SUPER : 1 to 1 TURBO : 1 to 0 HSP : 1 to 1 1 m ULTRA : 1 to 1 Side (ø1.0 ). MEGA : 1 to SUPER : 1 to 1-0 to +0 C -ø.1 FINE : 1 to TURBO : 1 to 0. Thickness. R HSP : 1 to 1 1 m ULTRA : to (ø1.0) MEGA : to 1 SUPER : to 0-0 to +0 C -ø.1 FINE : to TURBO : to 1 HSP : to Thickness Flat m ULTRA : 1 to (ø. ) MEGA : 1 to 00 SUPER : 1 to to +0 C -ø. FINE : 1 to 0 TURBO : 1 to 10 HSP : 1 to 0 Thickness *1 When using the FS-N Series.Standard target: White mat paper (Reflective type only). * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. Spot diameter Approx.. Approx.. Minimum detectable object * (At mm distance) ø0.00 Gold wire Approx. ø1. (At mm distance) Minimum detectable object * ø0.00 Gold wire ø0.0 Copper wire Model / Weight FU-0S Approx. g FU- Approx. g FU- Approx. g FU-V Approx. g FU-L Approx. g FU-S Approx. g FU-R Approx. g Model / Weight FU-TZ Approx. g FU-TZ Approx. g FU-1TZ Approx. g FU-TZ Approx. g [P.] [P.] [P.] [P.] [P.] [P.] [P.] Specifi cations Specifi cations Specifi cations

38 Reflective/Small Space Sleeve The fi bre tip is incorporated into a thin sleeve. Benefits! When determining the smallest detectable object, positioning the sensor too closely to the object causes the object to disappear, making alignment difficult. With the sleeve type, the sensor itself does not become an obstruction and alignment is much easier. Beam emitting direction Side Top Coaxial narrow beam Fibre unit length (Diameter) Ambient temperature Appearance m (ø1.0 ) -0 to +0 C ø Sleeve part Do not bend 1 m (ø. ) -0 to +0 C ø.1 Sleeve part bend R 0 cm cut not allowed M -0 to +0 C ø0. Sleeve part Do not bend m (ø1. ) M -0 to +0 C ø Min. bend radius of sleeve: R m (ø1. ) M -0 to +0 C ø1. m (ø1. ) -0 to +0 C ø1. 0 cm cut not allowed -0 to +0 C ø0. Sleeve part Do not bend m (ø1. ) -0 to +0 C ø1. Sleeve part Do not bend Sleeve part Do not bend 0 cm cut not allowed -0 to +0 C ø1. Sleeve part Do not bend 1 m cut not allowed -0 to +0 C ø0. ø. Min. bend radius of sleeve: R Min. bend radius of sleeve: R ø ø1. ø. ø. ø 1 Cable bend radius Detecting distance * 1 MEGA FINE Other power modes *1 When using the FS-N Series. Standard target: White mat paper (Reflective type only). * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. R R R R R R R R R MEGA : 10 FINE : MEGA : FINE : MEGA : FINE : 1 MEGA : 90 FINE : MEGA : 0 FINE : MEGA : FINE : 1 MEGA : 0 FINE : MEGA : FINE :. MEGA : FINE : ULTRA : 10 SUPER : 1 TURBO : 0 HSP : 1 ULTRA : SUPER : 10 TURBO : 90 HSP : ULTRA : SUPER : 0 TURBO : HSP : ULTRA : 190 SUPER : 1 TURBO : 0 HSP : ULTRA : SUPER : 0 TURBO : 0 HSP : ULTRA : SUPER : 0 TURBO : HSP : ULTRA : SUPER : 0 TURBO : 0 HSP : ULTRA : 1 SUPER : 1 TURBO : HSP :. ULTRA : 9 SUPER : TURBO : HSP : Minimum detectable object * ø0.00 Gold wire Model / Weight FU-1 Approx. g FU- Approx. g FU-X Approx. g FU-Z Approx. g FU- Approx. g FU-T Approx. g FU-X Approx. g FU- Approx. g FU- Approx. g FU-X Approx. g [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] Reflective model Environment-proof Oil-proof, Chemical Proof Sensor is encased in fl uorocarbon resin. Beam emitting direction Top Fibre unit length (Diameter) Ambient temperature Appearance m (ø1. ) -0 to +0 C ø. m (ø1. ) -0 to +0 C Thickness 9. (width of ø.1 mounting hole seating surface) m (ø1. ) 9-0 to + C. Thickness 9 *1 When using the FS-N Series. Standard target: White mat paper (Reflective type only.) 0 Cable bend radius R0 Detecting distance * 1 MEGA Other power modes FINE MEGA : FINE : 10 MEGA : to FINE : to ULTRA : 90 SUPER : TURBO : 0 HSP : 0 ULTRA : to SUPER : to TURBO : to HSP : to 1 Standard Detectable object 0 0 t = 0. Glass substrate Model / Weight FU-91 Approx. g FU-9P Approx. g FU-9S Approx. 90 g [P.] [P.9] [P.9]

39 Refl ective/environment-proof High-flex Size Fibre unit length (Diameter) Ambient temperature Appearance Cable bend radius Detecting distance * 1 MEGA FINE Other power modes Minimum detectable object * Model / Weight ø 1 m (ø1.0 ) -0 to +0 C ø FU-9U Approx. g [P.] Suited for use with moving object detection. ø M 1 m (ø1.0 ) -0 to +0 C 1 m (ø1.0 ) -0 to +0 C ø M 1 R High-flex MEGA : 10 FINE : 0 ULTRA : 1 SUPER : 0 TURBO : 0 HSP : 1 FU-U Approx. g FU-9U Approx. g [P.] [P.] HeatR esistant Suited for use at high object detection temperatures of up to 0 C. ø1. M ø M Heat resistant temperature* 0 C* C* 0 C* 10 C* 0 C 00 C 1 m cut not allowed -0 to +0 C m (ø. ) -0 to +0 C M R 1 1 m cut not allowed -0 to +00 C ø.1 M M M M 90 ø1. ø0.00 FU-9X ULTRA : 0 Gold wire Approx. g MEGA : 0 SUPER : 0 1 m cut not allowed FINE : TURBO : M -0 to +0 C HSP : FU-9X Approx. g m (ø1.0 ) -0 to +0 C m (ø1.0 ) -0 to +0 C ø M M *1 When using the FS-N Series.Standard target: White mat paper (Reflective type only.) * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. Fibre unit length (Diameter) Ambient temperature Appearance m (ø. ) -0 to + C m (ø. ) -0 to +0 C m (ø. ) -0 to +10 C 1 m cut not allowed -0 to +0 C Sleeve part R R High-flex Cable bend radius R R R R MEGA : 90 FINE : Detecting distance * 1 Minimum detectable object * Model / Weight 1 m cut not allowed M -0 to +00 C FU-C ø. R Approx. g 1 1 m cut not allowed M ULTRA : 0-0 to +0 C 0 MEGA : 0 SUPER : 90 FU-1C 0 C ø.1 [P.] 90 Sleeve part FINE : 10 TURBO : 90 Approx. g R HSP : m (ø. ) Thickness 10 C* -0 to +10 C FU-H R [P.] 19 ULTRA :. to Approx. g MEGA :. to SUPER :. to 1 m cut not allowed FINE :. to 1 TURBO :. to Thickness -0 to + C HSP :. to FU-K [P.] 19 Approx. g C R m cut not allowed ULTRA : to -0 to + C Thickness MEGA : to SUPER : to FU-LK [P.] FINE : to 0 TURBO : to Approx. 0 g 9. HSP : to 1 *1 When using the FS-N Series. Standard target: White mat paper (Reflective type only). (FU-LK shows values for t=0. mm glass substrate (horizontal direction).) * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. * Use the fibreoptic sensor under dry conditions. Allow some margin for the temperature upper limit when selecting a heat-resistant fibre unit. * The recommended maximum ambient temperature during operation is 90 C when constantly using a fibre unit in a high-temperature environment. * The recommended maximum ambient temperature during operation is 10 C when constantly using a fibre unit in a high-temperature environment. * The recommended maximum ambient temperature during operation is 0 C when constantly using a fibre unit in a high-temperature environment. MEGA FINE MEGA : 0 FINE : MEGA : 10 FINE : MEGA : FINE : MEGA : 0 FINE : 0 MEGA : 0 FINE : 190 ULTRA : 0 SUPER : 10 TURBO : 0 HSP : Other power modes ULTRA : 0 SUPER : TURBO : HSP : 90 ULTRA : 0 SUPER : 90 TURBO : HSP : 10 ULTRA : 0 SUPER : TURBO : HSP : 90 ULTRA : SUPER : 0 TURBO : 0 HSP : 0 ULTRA : 0 SUPER : 0 TURBO : 0 HSP : 0 FU- Approx. g FU- Approx. g FU-Z Approx. g FU-A Approx. 1 g FU-H Approx. g FU- Approx. g ø0.00 Gold wire FU-K Approx. g FU-C Approx. 9 g [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] [P.] Specifi cations Specifi cations Specifi cations 9

40 Reflective model Dedicated application type Area Useful in situations where target position varies. Type Array Area Detecting width mm (Detecting distance is mm) mm (Detecting distance is mm) mm (At detecting distance of mm) Fibre unit length (Diameter) Ambient temperature Appearance m (ø. ) -0 to +0 C m (ø. ) -0 to +0 C Thickness Thickness Cable bend radius m (ø. ) -0 to +0 C R Detecting distance * 1 MEGA FINE R* MEGA : 0 FINE : 10 MEGA : to 0 FINE : to 10 Other power modes ULTRA : 0 SUPER : TURBO : 10 HSP : 0 ULTRA : to 0 SUPER : to 0 TURBO : to HSP : to 1 *1 When using the FS-N Series. Standard target: White mat paper (Reflective type only). * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. * R for the first mm of cable from the housing. Minimum detectable object * Model / Weight FU-A0D Approx. g ø0.00 Gold wire FU-AD Approx. g ø0.1 Gold wire FU-11 Approx. 19 g [P.9] [P.9] [P.] Liquid-level Detecting method Transparent tube diameter Beam axis 1 Fibre unit length (Diameter) Ambient temperature Appearance m (ø. ) -0 to +0 C Cable bend radius R Accessory Binding band Nonslip rubber Model / Weight FU-9S Approx. g [P.] Liquid-level sensors are available in tubemountable and immersible types. Benefits! Though a single beam axis was utilised in the past, this resulted in misdetection caused by air bubbles, droplets, and other problems. The 1 beam axis is a suitable countermeasure for these types of problems. Tube mountable ø to More than ø is recommended Detecting method Immersion 1 1 m (ø1.0 ) FU-9Z : -0 to +0 C FU-9HA : -0 to + C* FU-9 : -0 to +0 C * The recommended maximum ambient temperature during operation is 90 C when constantly using a fibre unit in a high-temperature environment. m (ø. ) -0 to +0 C Fibre unit length (Diameter) Ambient temperature Appearance m (ø1. ) FU-9Z: -0 to +0 C FU-9: -0 to + 0 C ø (fluorocarbon polymer) R R R R Binding band Nonslip rubber Spacer Screw Nut None (Optionally available) Minimum bend radius PFA-sheathed Fibre section R0* R0. R FU-9Z Approx. g FU-9HA Approx. g FU-9 Approx. g FU-9W Approx. g Model / Weight FU-9Z Approx. g FU-9 Approx. g [P.] [P.] [P.] [P.9] [P.] [P.] * Not bendable up to 0 mm from the tip. Retro-reflective Type Transparent object detection type Retroreflective Appearance Fibre unit length (Diameter) Ambient temperature Appearance Cable bend radius MEGA FINE Detecting distance * Other power modes Model / Weight M m (ø1.0 ) -0 to +0 C 1 M Reflective tape (accessory) R MEGA : to 90 FINE : to 1 ULTRA : to 0 SUPER : to 0 TURBO : to HSP : FU-1 Approx. g [P.] Reflectors enable stable detection with reduced installation time. Square type m (ø1.0 ) - to + C.9. Thickness. * When using the FS-N Series. Reflector R- (accessory) R MEGA : 0 to 00 FINE : 0 to 1 ULTRA : 0 to 000 SUPER : 0 to 0 TURBO : 0 to 190 HSP : 0 to 00 FU- Approx. g [P.] Benefits! The optics of the FU- suppress the effects of refraction and deflection for stable detection of liquid-filled PET bottles and other objects. The FU- has an IP enclosure rating. 0

41 Retro-reflective/Transparent Object Detection Refl ector/refl ective Tape Specifi cations (Optional Parts) Model Power mode R- (OP-9) R- (OP-9) R- Reflective tape (OP-99) 1. 1 mm mm 1 mm 0 0 mm MEGA to 10 to 0 to 0 to 90 ULTRA to 00 to 1 to 0 to 0 FU-1 SUPER to 0 to 0 to 0 to 0 TURBO to 0 to 0 to to FINE to to 0 to 10 to 1 HSP MEGA 0 to 00 0 to 00 0 to 0 ULTRA 0 to to 00 0 to 0 FU-* 1 SUPER 0 to 0 0 to 0 to 00 TURBO 0 to to 10 0 to 10 FINE 0 to 1 0 to 00 0 to 00 HSP 0 to 00 0 to 0 0 to 0 *1 Reflective tape cannot be used. Vacuum environment type (Thrubeam) Previously requested vacuum type is added to the lineup. Detecting method Thrubeam type Type Vacuum side How to mount the optical integrator The optical integrator seals and isolates the vacuum and atmosphere sides while still transmitting light from the vacuum fi bre to the atmosphere fi bre. All optical integrators have been leak tested. (Leak amount: 1 Pa m /sec max, at helium leak test) Heat resistant temperature 0 C 1 m cut not allowed -0 to +0 C M P0. SUS0 1 m cut not allowed 1.1 ULTRA : -0 to +0 C FU-VL MEGA : 100 SUPER : 00 ø0.00 R FINE : 0 TURBO : 0 Opaque M P0. HSP : 1 Approx. 0 g max. SUS0 m (ø.) -0 to +0 C FU-VFN Acrossflats: Approx. 0 g *1 Common for APC ON/OFF when the FS-N Series is used. * The smallest detectable object was determined at the optimal detecting distance and sensitivity setting. Detecting method Optical integrator thrubeam 1 set connection type Detecting method For vacuum longdistance Lens Tip: ø Fibre unit length (Diameter) Ambient temperature Appearance * Common for APC ON/OFF when the FS-N Series is used. Detecting method channel chamber flange Atmosphere side Heat resistant temperature 0 C Heat resistant temperature 0 C Heat resistant temperature 0 C 0 C 0 C Ambient temperature Appearance - to +0 C Ambient temperature Appearance - to +0 C. Ambient temperature Appearance - to +0 C ø0 Vacuum side fibre Vacuum chamber wall Vacuum side Cable bend radius Material Unit housing: SUS0 Fibre: Multicomponent glass Applicable fibre units FU-V FU-VL Screw Spring washer Flat washer Features Detecting distance * 1 MEGA FINE Allowable mounting to mm: when the lock nut and spring washer are used plate thickness to 1 mm: when the lock nut and spring washer are not used Atmosphere side Optical integrator O-ring Other power modes Accessory Minimum Detectable object * M nut, spring washer, washer: each: SUS0 O-rings: Fluoro-rubber Material/Accessory sets of optical integrators are [Material] SUS0 connectable. [Accessory] 1 O-ring External diameter ø0 and O-ring ø0. Material: Fluororubber Refer to the dimensions for the appearance. Model / Weight FU-V Approx. g Model / Weight FU-VJ1 Approx. g Detecting distance * Model / MEGA ULTRA SUPER TURBO FINE HSP Weight F-V Approx. g Model / Weight FU-VJ Approx. g Atmosphere side fibre (FU-VFN) The degree of roughness for the atmosphere side must be 1.Rz or more. Mounting hole diameter: ø , -0 [P.0] [P.0] [P.0] [P.0] [P.0] [P.0] Specifi cations Specifi cations Specifi cations 1

42 Amplifier Cable type Type Appearance Model NPN output PNP output Control outputs External input Monitor output Standard Main unit FS-N11N FS-N11P Main unit Expansion unit FS-NN FS-NP output Main unit FS-N1N FS-N1P Expansion unit Expansion unit FS-N1N FS-N1P 1 0 [P.] Monitor output Main unit FS-N11MN M connector type Type Appearance Model NPN output PNP output Control outputs External input Monitor output Standard output Main unit FS-N11CN FS-N11CP Main unit Expansion unit FS-NCN FS-NCP Main unit Expansion unit FS-N1CP Expansion unit FS-N1CP [P.] Zero line type Type Appearance Model Control outputs External input Monitor output Expansion unit (No output line) FS-N None* [P.] *1 Counted as one output when added to a NU Series communication unit. Specifications Type Standard 1 output High functionality output Cable/M connector Cable M connector * 1 Cable M connector * 1 Cable Main/Expansion unit Model I/O Main unit Expansion unit Main unit Expansion unit Main unit Expansion unit Main unit Expansion unit *1 Use a cable length of 0 m or less for M connector type. * Counted as one output when added to a NU Series communication unit. * FS-N11MN only. * SUPER : 1. ms, ULTRA : 1. ms, MEGA :. ms. * Input time is ms (ON)/ ms (OFF) when external calibration time is selected. * Increases 0 mw (.0 ma) for HIGH SPEED mode. * One or two more units connected: - to + C ; to more units connected: - to +0 C; 11 to 1 more units connected: - to + C. When using -outputs, one unit is counted as two units. All temperature regulations are for when the unit is mounted on a DIN rail and installed on metal sheeting. Monitor output Main unit NPN FS-N11N FS-NN FS-N11CN FS-NCN FS-N1N FS-N1N FS-N11MN PNP FS-N11P FS-NP FS-N11CP FS-NCP FS-N1P FS-N1P FS-N1CP FS-N1CP Zero line Expansion unit (No output wire) Control outputs 1 output 1 output 1 output 1 output output output output output 1 output None* Monitor output (1 to V) 1 output External input 1 input 1 input 1 input 1 input Light source LED Response time Output selection Red, -element LED (Wavelength: 0 nm) 0 μs (HIGH SPEED)/ μs (FINE)/00 μs (TURBO)/1 ms (SUPER)/ ms (ULTRA)/1 ms (MEGA) LIGHT-ON/DARK-ON (switch-selectable) Timer function Timer OFF/OFF-delay timer/on-delay timer/one-shot timer NPN output NPN open connector V, (without expansion) for one output: 0 ma max., two output total: 0 ma max., (with expansion) ma max for one output, residual voltage 1 V max. PNP output PNP open connector V, (without expansion) for one output: 0 ma max., two output total: 0 ma max., (with expansion) ma max for one output, residual voltage 1 V max. Monitor output* 1 to V voltage output; load resistance kω or more; repeat precision ±0.% of F.S.; response time: 1 ms (HIGH SPEED, FINE, TURBO)* External input Input time ms (ON)/ ms (OFF) or more* Control outputs Multiple connections to expansion units Protection circuit Number of interference prevention units Power voltage Rating Environmental resistance NPN PNP Ambient light Ambient temperature Up to 1 units can be connected in total (two-output type is treated as two units) Reverse polarity protection, Over-current protection, Surge absorber 0 for HIGH SPEED; for FINE; for TURBO/SUPER/ULTRA/MEGA (When set to DOUBLE, the number of interference-prevention units will be doubled.) Normal: 90 mw or less (9 ma max. at V, ma max. at V)* Eco on mode (ALL): 0 mw or less ( ma max. at V, ma max. at V)* Eco Full mode: mw or less (1 ma max. at V, ma max. at V) to VDC ±% ripple (P-P) % or less Normal: 900 mw or less ( ma max. at V, ma max. at V)* Eco on mode: 00 mw or less ( ma max. at V, 9 ma max. at V)* Eco Full mode: 0 mw or less (19 ma max. at V, ma max. at V) Normal: 0 mw or less ( ma max. at V, ma max. at V)* Eco on mode (ALL): 90 mw or less ( ma max. at V, ma max. at V)* Eco Full mode: 00 mw or less ( ma max. at V, 9 ma max. at V) Incandescent lamp:,000 lux max., Sunlight: 0,000 lux max. - C to + C (No freezing)* Relative humidity to % RH (No condensation) Vibration resistance to Hz, double amplitude 1. mm, hours for each of X,Y,Z axis Shock resistance 00 m/s times for each of X,Y and Z axis Case material Main unit and cover material: Polycarbonate Case size H 0. mm W 9. mm L 1. mm Weight Approx. g Approx. g Approx. g Approx. g Approx. 0 g Approx. 0 g Approx. g Approx. g Approx. g Approx. g FS-N

43 I/O Circuit Diagram Cable type FS-N11N / NN / N1N / N1N FS-N11P / NP / N1P / N1P Sensor main circuit. VDC *1 FS-N11N / N1N only * FS-N1N / N1N only Sensor main circuit Overcurrent protection circuit Monitor output type FS-N11MN Overcurrent protection circuit Protection circuit M connector type FS-N11CN / NCN Sensor main circuit Overcurrent protection circuit. VDC *1 FS-N11CN only M connector pin layout - VDC - VDC Brown* 1 Brown* 1 Black (control output 1) White* (control output ) 1 Brown Orange Monitor output (1 to V) Black Blue Load (Control output ) - VDC Device with a kω or higher input impedance 0 V *1 FS-N11CP/N1CP only * FS-N1CP/N1CP only * FS-N11CP/NCP only Black (control output 1) White* (control output ) Pink* PLC, etc. Short-circuit current 1 ma or less Pink* 0 V 0 V Blue* 1 Blue* 1 * 1 Load Load (Control output ) * 1 Load M Connector Cable (sold separately) FS-N11Cx / NCx / N1CP / N1CP OP- (Cable length: m) OP- (Cable length: m) - VDC Short-circuit current PLC, etc. 1 ma or less 0 V Pin - wire color Connected pin number Core wire cover color Brown White Blue Black Sensor main circuit *1 FS-N11P / N1P only * FS-N1P / N1P only Sensor main circuit Overcurrent protection circuit FS-N11CP / NCP / N1CP / N1CP Overcurrent protection circuit M connector pin layout 1 * 1 (Control output 1) * (control output ) * * 1 M connector junction cable (sold separately) OP-9 Load Load Load Load PLC, etc. Short-circuit current ma or less - VDC PLC, etc. Short-circuit current ma or less 0 V Specifi cations Specifi cations Specifi cations

44 Sensor head FU- Mounting bracket (Included with FU-) Two-sided Transmitter ø M, P=0. mounting part -slot Chamfering A M nut, M washer, tooth locked washer provided.. ø. A ø ø1. (Adaptor A) Lens diameter A-A. 9. *. cross section view L 1 M screw t=1. L: lens unit length * Adjustable part. to 9. mm 1. 1 Material: SUS0 FU-11 9 Center of emitted light -ø. ø. Transmitter. FU- Set of.. (Center of optical axis) ø., ø. countersink ø. (Mounting hole) FU-1. ø1. openings 1 Across-flats:, t= M, P=0. ø1.0 (Adaptor B) Refl ective tape (Included with FU-1) OP Material: PC, Acryl t=0. 9 FU- Center of optical axis. -ø. (Mounting hole) C1.... ø1.0 (Adaptor B). R- Reflector (Included with FU-) ø. Material: Acrylic, ABS.. Mounting bracket (Included with FU-) 0. (1.) Plate nut (Included with FU-) 1 -M, P=0. Material: SUS0 t = Material: SUS0. t = 1. *Supplied screws (Included with FU-) M 1 ( pcs.). FU-1/1Z/1 Set of FU-1M Mounting bracket (Included with FU-1/1Z/1) ( pcs.) Set of ø. (Beam dia.) ø1 (Beam dia.) ø1.0. ø (Adaptor B) - R1... SUS0 ø1.0 SUS0 0. (Adaptor B) t = 0., SUS0 1. Mounting bracket (Included with FU-1M) ( pcs.) t= SUS FU-FU-X FU-1X Across-flats:., t= ø ø1. Transmitter M, P=0. ø1. ø. lens * * Set-screw tightening area ø0. ø0. Nickel-plated brass 00 ø0. ø ø1. SUS0 ø. SUS0 00 ø FU-XFU- FU-X Across-flats:., t= M, P=0. ø1. ø1 ø ø. SUS0 ø0.1 1 Nickel-plated brass ø1 Across-flats:, t= M, P=0. Nickel-plated brass ø. ø ø ø0. 1 ø 1 FU ø SUS0 ø. SUS0 ø1.0 (Adaptor B) FU- Set of ø0. ø0. (Beam dia.) SUS0. 0. ø. SUS0 ø1. (Adaptor A) 00 FU-.. ø.1 ø. SUS0 SUS0 1 Bendable area 00 ø.

45 CAD Data Download: Unit : mm FU- Set of ø1. ø.. SUS0 SUS0 0. Bendable area ø 19 FU-FA ø0. ø0. Across-flats:. t= M, P=0. SUS0 ø 1 00 ø1. (Adaptor A) FU-FG ø0. Across-flats:. t= M, P=0. SUS0 ø. SUS0 ø. ø0. ø SUS0 00 ø1. (Adaptor A) FU-FZ ø0. ø0. Across-flats:. t= M, P=0. SUS0 ø 00 ø1. (Adaptor A) FU-TG 11. ø0. M, P=0. Effective screw length: Nickel-plated brass M, P=0. Effective screw length:. ø0. ø. SUS0. 00 (M nut [Across-flats:, t=] and washer included) FU-TZ.1 ø0. M, P=0. Effective screw length: Nickel-plated brass ø1. ø0. (Adaptor A). 00 (M nut [Across-flats:., t=] and washer included) FU- -ø., ø countersink 1.. FU-K (Mounting hole) ø1.0 (Adaptor B) 19 Housing: Polycarbonate. -M, P=0. 19 FU-R. 00 Spiral: ø.9 -ø., ø. countersink (Mounting hole) ø (.) 9 ()*. * Do not bend this part. FU-F/FZ ø1 FU-0G 9.. ø SUS0 1. SUS0 1 ø. lens -ø.0 Nickel-plated brass 00 ø1. (Adaptor A) ø.9 SUS0 FU Housing: Polysulfone FU-L (9.) ().. -ø., ø. countersink (Mounting hole). ø1.0 (Adaptor B). -ø., ø countersink 1. FU-S. 1.1 ø. ()* * Do not bend this part. -ø., ø. countersink (Mounting hole) ø FU ø. lens. ø. 1 SUS0 Mounting bracket (Included with FU-0/0G) -M 1 -slot t=1. FU-H. FU-LK FU-V.. -M, P= ø., 0. ø countersink 1.1 -ø., ø. countersink (Mounting hole) 19 Housing: Polysulfone FU-0S ø... 1 ø. ø.9 9. SUS0 Lens (.) (-0~+ C)* (-0~+0 C)* (-0~+0 C)* (-0~+ C)* * Maximum temperature resistance for each part is shown in ( ). ø1.0 (Adaptor B) -ø., ø countersink ()* ø. * Do not bend this part. Specifications Specifications Specifications Material: SPCC (Nickel Plated) FU-1TZ FU-TZ Mounting bracket (Included with FU-TZ) 1. -ø.1, ø. spot facing d=1. -ø., ø. spot facing d= M, P=0. l screw/nut provided M, P=0. l screw/nut provided ø1.0 (Adaptor B) 1. ø t=1., SUS0 Housing: SUS0 Housing: SUS0

46 Sensor head FU- ø0. ø ø1. ø1. SUS0 SUS0 * ø1. (Adaptor A) * Do not bend this part. FU-TZ FU-X ø0. -ø.1 SUS0 ø0. ø ø0. M, P=0. l screw/nut provided ø1.0 (Adaptor B) 00 Housing: SUS0 SUS0 * 00 * Do not bend this part. ø1 FU- ø0. ø1. ø0.9 ø0. SUS0 SUS0 00 FU-TZ -ø.1.. M, P=0. l screw/nut provided.. ø1.0 (Adaptor B) ø Housing: SUS0 FU- ø (ø0. ) ø1.0 (Adaptor B) SUS0 FU-U FU-9U FU-9X ø0. ø SUS0 ø1.0 ø0. ø SUS0 ø ø1. ø1 SUS0 00 () * * Do not bend this part. 00 () * * Do not bend this part. 00 FU-F/FZ Set of ø ø. ø1 (ø1.1) SUS0 (1) * ( ) shows FU-FZ.. ø. lens FU-0 Set of SUS0 ø1.0 (Adaptor B) Mounting bracket (Included with FU-0).. -R t=0., SUS0 FU-1TZ Set of. ø0. -ø.1, ø. spot facing d=1. M, P=0. l screw/nut provided ø1.0 (Adaptor B) 00 Housing: Aluminum FU-TZ Set of.. 1 -ø., ø. spot facing d=.1 M, P=0. l screw/nut provided ø1. (Adaptor A) 1 ø1.0 Housing: Aluminum FU-TZ Set of ø.1, ø. spot facing d=1. M, P=0. l screw/nut provided ø0. ø1.0 (Adaptor B) 00 Housing: SUS0 FU-TZ Set of M, P = 0. l screws provided ø1 ø. Housing: SUS0 Mounting bracket (Included with FU-TZ). ( pcs.) t=1., SUS0 FU- ø0. ø. Nickel-plated brass 00 ø1 FU- ø0. ø0. SUS0 ø. 00 Nickel-plated brass ø1. FU-TE/TZ Set of FU-TE FU-TZ 1 1 ø0. ø0. VIEW A VIEW A. A.. ø.1, ø. spot facing d=1. M, P=0. l screw/nut provided ø1.0 (Adaptor B) 00 Housing: SUS0 FU- ø0. ø1 SUS0 ø0. FU-U Set of ø0. ø1 SUS0 ø1.0 FU-9 Set of ø0. ø1. SUS0 ø1.0 (Adaptor B) () * * Do not bend this part. 00

47 CAD Data Download: Unit : mm FU-9U Set of ø0. ø1. SUS0 ø1.0 FU-F Across-flats:, t= ø1 M, P=0. Nickel-plated brass ø. FU-1/1Z ø1. Across-flats:, t= M, P=0. SUS0 ø. 00 () * * Do not bend this part. ø 1 ø 1 FU- ø0. Bendable area ø1. SUS0 Across-flats:, t= M, P=0. Nickel-plated brass ø1. ø1. (Adaptor A) FU-T ø0. Thickness ø1. ø1. Nickel-plated brass SUS0 ø1. (Adaptor A) -ø. Bendable area 9. FU-Z ø0. Bendable area Across-flats:, t= ø.0 SUS0 M, P=0. SUS0 ø1. ø1. (Adaptor A) ø0. ø1.1 ø0. SUS0 Across-flats:., t= M, P=0. Nickel-plated brass * 00 ø 1 ø1 * Do not bend this part. Across-flats:, t= M, P=0. Nickel-plated brass ø. FU-TZ M, P=0. Effective screw length:. 11. FU-X FU-/V Nickel-plated brass ø ø1.1. FU-9X ø0. M P=0. ø1. ø. (M nut [Across-flats:, t=] and washer included) Across-flats:., t= M, P=0. ø1 Nickel-plated brass 00 FU-1/1Z Set of Across-flats:, t= M, P=0. SUS0 ø. FU-/Z ø1 (ø1.1 ) FU-G FU- ø. Across-flats:, t= M, P=0. ø1. (Adaptor A) SUS0 * ( ) shows FU-Z. Across-flats:, t= ø1.1 ø. M, P=0. SUS0 Nickel-plated brass ø 00 Across-flats:, t= ø1.0 (ø0. ) M, P=0. (Adaptor B) SUS0 ø FU-F Set of Across-flats:, t= M. P=0. ø1 M, P=0. Nickel-plated brass ø. ø1 FU- Set of ø1. ø1. SUS0 Across-flats:, t= M, P=0. Nickel-plated brass ø. Bendable area FU-TZ M, P=0. Effective screw length:..1 Nickel-plated brass ø. ø1. ø1. (M nut [Across-flats:, t=] and washer included) FU-TG M, P=0. Effective screw length:. Nickel-plated brass ø ø1.1 ø. SUS (M nut [Across-flats:, t=] and washer included) FU-9U ø0. 1 () * Across-flats:., t= M, P=0. SUS0 ø1.0 FU-0U Set of Across-flats:, t= ø. M, P=0. lens Nickel-plated brassø * Do not bend this part () * * Do not bend this part. FU-F Set of ø0. SUS0 Across-flats:., t= ø0. * M, P=0. Nickel-plated brass ø1.0 (Adaptor B) 00 * Do not bend this part. Specifi cations Specifi cations Specifi cations FU-F Set of ø0. SUS0 Nickel-plated brass Bendable area ø1.0 (Adaptor B) ø0. ø 00 FU-/V Set of M., P=0. ø1.1 Across-flats:, t= M, P=0. ø. Nickel-plated brass 11 FU-G Across-flats:, t= M, P=0. M., P=0. Nickel-plated brass ø.9 SUS0 ø ø1.1 fibre 00

48 Sensor head FU-TG Set of.1 A A ø1.1 M., P = 0., Effective screw length:. Nickel-plated brass M, P=0. Effective screw length:. ø.9 SUS (M nut [Across-flats:, t=] and washer included) FU-TZ Set of ø1.1 A A M, P=0. Effective screw length:. ø. M., P = 0., Effective screw length:. Nickel-plated brass..1 (M nut [Across-flats:, t=] and washer included) FU- Set of ø0. M., P=0. Across-flats:, t= M, P=0. Nickel-plated brass ø1. (Adaptor A) FU-9 Set of Across-flats:., t= ø0. FU-C M, P=0. Nickel-plated brass ø1.0 (Adaptor B) 00 M, P=0. Across-flats:, t= Hexagonal clasp SUS0 ø1. ø.1 ø. core Hexagonal clasp SUS0 fibre Bendable area ø. 90 SUS (-0 to +00 C) * (-0 to +00 C) * (-0 to +0 C) * * Maximum temperature resistance for each part is shown in ( ). FU-9U Set of Across-flats:., t= ø0. SUS0 FU-C Across-flats:, t= ø1. core ø. fibre M, P=0. ø1.0 ()* 00 * Do not bend this part. ø. Hexagonal clasp ø. SUS (-0 to +00 C) * (-0 to +0 C) * (-0 to +0 C) * 1 M, P=0. SUS0 * Maximum temperature resistance for each part is shown in ( ). FU-1C ø1. core fibre Across-flats:, t= ø1. ø.1 M, P=0. Bendable area 90 SUS0 SUS0 ø. SUS0 ø (-0 to +0 C) * (-0 to +0 C) * (-0 to +0 C) * * Maximum temperature resistance for each part is shown in ( ). FU-C Across-flats:, t= M., P=0. ø1 core fibre M, P=0. SUS0 ø. Hexagonal clasp * Maximum temperature resistance for each part is shown in ( ). ø.9 SUS (-0 to +00 C) * (-0 to +0 C) * (-0 to +0 C) * FU-A ø1 ø 1 Across-flats:, t= M, P=0. ø. SUS0 FU-H -ø1. core fibre ø Across-flats:, t= M, P=0. SUS0 ø ø. FU-Z ø1 ø 1 Across-flats:, t= M, P=0. ø. SUS0 FU-A Set of M., P=0. ø1 core fibre Across-flats:, t= M, P=0. SUS0 ø. FU-H Set of FU-Z Set of ø1. core fibre ø Nickel-plated brass ø Across-flats:, t= M, P=0. ø. M., P=0. ø1 core fibre Across-flats:, t= M, P=0. SUS0 ø. FU- FU-K ø1. core fibre ø Across-flats:, t= M, P=0. ø. SUS0 Across-flats:, t= ø1. core fibre ø. M, P=0. SUS0 ø. 1 Hexagonal clasp 90(-0 to +0 C) * 00 * Maximum temperature resistance for each part is shown in ( ). ø.9 (-0 to +0 C) * FU- Set of Across-flats:, t= ø.9 ø1. core fibre 1 1 M, P=0. SUS0 ø. FU-KFU-9 ø1. FU-91 Set of * Maximum temperature (Adaptor A) M, P=0. Across-flats:, t= resistance for each part SUS0 is shown in ( ). ø. M., P=0. ø1 ø. FEP-tube ø. FEP-tube lens ø FEP-tube ø. ø. core fibre ø1 core fibre Hexagonal clasp (-0 to +0 C) * 190(-0 to +0 C) * () Metal casing is inserted. 0 ø FEP-tube ø. () Metal casing is inserted. 0 FU-9/9Z Plastic casing inserted ø PFA-tube (.) (0)* ø1. (Adaptor A) 0 * Do not bend or cut this portion. FU-9/9HA/9Z (0.9).. Housing: Polysulfone * Accessory: binding band, nonslip rubber 1, spacer, screw, nut 11 -ø. (Mounting hole) ø1.0 (Adaptor B) FU-9S 1. () 1 (1) * Accessory: binding band, nonslip rubber ø. 1. Housing: Polyetherimide.

49 CAD Data Download: Unit : mm FU-9W ø R1 -ø. 0. Transmitter 1-ø Receiver 1-ø0. Housing: PBT FU-9 Set of (.) Center of optical axis ø. lens () Metal casing is inserted. ø FEP-tube ø FEP-tube ø. 0 R FU-9T Set of 1.. (.) -ø. (mounting hole) (.) ø. 1 ()* Optical axis * Do not bend this part.. FU-9S PFA housing SUS1L housing ø PTFE tube length: m 9. 9 Optic fibre ø. 1. (0).. FU-9 Set of PFA housing FU-E11 Set of Optical axis -ø. mounting hole (ø.) ø. ø PTFE tube ø. Optic fibre ø.. 1. FU-A ( ). Width. Mounting hole. Width, Spot-facing, d=1 (Both sides)* (R1.) 1. (0) ø. Cable length: m ø. Mounting hole ø, Spot-facing, d=1 (Both sides)* 1 *M l screws included Detection area details Detection Area 1-ø0. Detection Area ( 11) VIEW A-A -.1. Mounting hole, Spot-facing, d=1. (One side)*. ø. Length: A A * M l screws included B (9.) B M, t=1. nuts included 0. FU-9P 9.(width of ø.1 mounting Rigid PVC housing hole seating surface) ø PTFE tube length: m 9. Optic fibre ø. PFA housing.1 FU-A0D FU-A0 Set of FU-AD FU-E0 Set of With slit attached FU-9 (when OP-09 is attached) (.) (.).. Optical axis (0) -ø.1 mounting hole Mounting bracket: SUS1 t=1.... Mounting bracket: SUS1. 9 t=1. ( ) ø.. Cable length: m Width. ø. Mounting hole Mounting hole. ø, Spot-facing, d=1 (Both sides)* Width, Spot-facing, d=1 (Both sides)* 1 *M l screws included Detection area details Detection Area 0. Transmitter 1-ø (R1.). 0. Receiver 1-ø0. Detection Area( 0) ø. Length: -.. (mounting hole) 9 spot facing, d=1 (Both sides)* *M l screws included. ø. Cable length: m Width. ø. Mounting hole Mounting hole. ø, Spot-facing, d=1 Width, Spot-facing, 11 (Both sides)* d=1 (Both sides)* *M l screws included (11 ) (R9.1) Detection area details Detection Area 1-ø ( ) ø.. Cable length: m Width. ø. Mounting hole Mounting hole. ø, Spot-facing, d=1 (Both sides)* Width, Spot-facing, 1 d=1 (Both sides)* *M l screws included.1 (R1.) 1. (1)* 1 /(1)* (0) Detection Area Detection area details Transmitter 1-ø0. Receiver 1-ø Optical Detection Area(0. 0)* 1 /(0. )* axis *1 When using OP- * When using OP ø. Length: (1) -.. (mounting hole) 9 spot facing, d=1 (Both sides)* *M l screws included Specifi cations Specifi cations Specifi cations Optical axis Detection Area( 11) VIEW B-B 9

50 Sensor Head/Lens FU-L1Z FU-L0Z Set of ø1.1 ø ø. (mounting hole) 1 -ø. (mounting hole) ø. 1 1 Lens (ø.) ø. -ø. (mounting hole) FU-L1Z/LZ/LZ Set of L1.. L1 1. -ø. (mounting hole) ø. L Core fibre ø1.1 L ø. L. 1 L -ø. (mounting hole) Model L1 L FU-L1Z. FU-LZ 1 FU-LZ FU-LZ Set of FU-V FU-VFN..... A B. VIEW A-A 1 ø1.1 A B -ø. (mounting hole) ø.. ø.. 1 -ø. (mounting hole) Optical integrator side ø.1 Beam dia.: ø1.0 SUS0 ø. Amplifier side ø. Mounting hexagon cap nut across-flats: (SUS0) Plain washer ø, t = 0. (SUS0) M P0. (SUS0) M. P0. ø1. (Beam dia.) Spring washer ø., t = 1 (SUS0) Across-flats:, t =. (SUS0) ø ø.9 Casing tube (SUS0) Mounting hexagon cap nut across-flats: (SUS0) ø ø.1 ø1.1 VIEW B-B FU-VL MAX () ø. A A ø1. (Beam dia.) R ø.9 A-A View on arrow Casing tube (SUS0) ø. Spring washer ø., t = 1 (SUS0) Plain washer ø, t = 0. (SUS0) Across-flats:, t =. (SUS0) M P0. (SUS0) M. P0. 1 ø.1 Mounting hexagon cap nut across-flats: (SUS0) FU-VJ1 ø (is recommended dia.) Mounting hole Across-flats:, t =. (SUS0) M P0.(SUS0) Chamber or flange t= to 1 (t = to : when the vacuum side lock nut and spring washer are used) Spring washer ø9., t = 1. (SUS0) Plain washer ø, t = 0. (SUS0) M P0.. Vacuum Atmosphere side side ø1. (Beam dia.) ø FU-VJ Vacuum chamber side - ø.1 through holes P.C.D ø0 ø0 - ø. - 0 equally divided P.C.D. Material: SUS0 Atmosphere side -ø. concave 0.1 ( places) F-1 per set F- per set F- per set F- per set F-HA Housing: Nickel-plated brass Lens: Acrylic ø. ø 9. Housing: Nickel-plated brass Lens: Glass ø.9 Housing: Aluminum Lens: Glass ø. 9. Housing: Aluminum Lens: Glass ø. (0.) Lens diameter -ø Housing: Aluminum Lens: Plastic ø.. ø F-HA F-HA F-HA F-HA F-V per set Housing: Aluminum Lens: Plastic ø. 9. ø Housing: Aluminum Lens: Glass ø. ø Housing: Aluminum Lens: Glass ø. Lens diameter.... -ø... Housing: Aluminum Lens: Plastic M P=1.0 A A (A-A cross section) Chamfering (.0). ø. Housing: SUS0 Lens: BK-. ø ø1 air-bleeding hole M. P0. 0

51 CAD Data Download: Unit : mm With lenses F-1+ FU-F/A/Z ø F-1+ FU-/V ø F-1+ FU-G ø ø F-1+ FU-C/K ø ø. F-+ FU-F/A/Z ø F-+ FU-/V ø F-+ FU-G ø.9 F-+ FU-TG 9. ø. 9. ø. F-HA+ FU-FG F-HA+ FU-FZ 9 F-HA+ FU-TG F-+ FU-TG ø.9 F-+ FU-F/A/Z F-HA+ FU-FZ. 9 F-HA+ FU-TG ø F-HA+ FU-TZ. F-+ FU-C/K F-+ FU-/V F-HA+ FU-TG F-HA+ FU-TZ F-HA+ FU-FA L L=. to 1. ø. F-+ FU-F ø F-+ FU-G ø ø F-HA+ FU-TZ. 9. F-HA+ FU-FA F-HA+ FU-FG. L L=. to.. F-+ FU-/V F-HA+ FU-1X/FU-X F-HA+ FU-FA F-HA+ FU-FG 9 F-HA+ FU-FZ L L=. to. F-+ FU-G F-HA+ FU-FA F-HA+ FU-FG F-HA+ FU-FZ 9 F-HA+ FU-1X ø (M nut and washer provided) Specifi cations Specifi cations Specifi cations F-HA+ FU-FA F-HA+ FU-FG F-HA+ FU-FZ F-HA+ FU-TZ 1. F-V+ FU-V Tooth locked washer ø. t = 0. (SUS0) F-V+ FU-VL ø Tooth locked washer ø. t = 0. (SUS0) ø (M nut and washer provided) (M nut and washer provided) 1 (M nut and washer provided) (M nut and washer provided) 1

52 Amplifier FS-N11N / N11P / N1N / N1P / N11MN Cable type, Main unit 9. ø.9, -core Brown/Blue/Black: 0. mm * Cable length: m FS-NN / NP / N1N / N1P Cable type, Expansion unit 9. ø., 1-core Black 0. mm * 1 Cable length: m Maximum when the cover is opened: max. Maximum when the cover is opened: (.) 0. (.) (1) (1) min Min. * *FS-N11MN: ø.9, -core Brown/Blue: 0. mm, Black/Orange 0.1 mm *1 FS-N1N/N1P: ø.9, -core Black/White/Pink: 0.1 mm FS-N1N/N1P: ø.9, -core Brown/Blue: 0. mm, Black/White/Pink 0.1 mm * FS-N1N/N1P: min. FS-N11CN / N11CP / N1CP M connector type, Main unit FS-NCN / NCP / N1CP M connector type, Expansion unit 9. ø. 9. ø. Maximum when the cover is opened: max. Maximum when the cover is opened: (.) 0. (.). (.) M connector.. (.) M connector M connector cable (OP-/ sold separately) ø., -core 0. mm Cable length L(m) OP- ø9. OP- (.) L M connector junction cable (OP-9 sold separately). ø. 0. mm. ø9. ø9 ø9.. M 1

53 CAD Data Download: Unit : mm FS-N Zero line type, Expansion unit OP-199 Conversion adaptor Maximum when the cover is opened: (.) (9.) When the mounting bracket is attached (OP-0 sold separately) Cable type. End unit Reverse side of -(..) mounting bracket Spot facing: ø., d= (1.) 0. (.)..9 -ø... Spot facing: ø., d=. Common for all types When several units are connected: Material: Polycarbonate L. End unit *¹ *1 End units must be used when several units are connected. (OP-1) M connector type.9... Reverse side of -(..) mounting bracket Spot facing: ø., d=. 1 No. of units L (1.) 0. (.) -ø. Spot facing: ø., d=. Material: Polycarbonate End unit (OP-1 sold separately) DIN-rail mounting (.) Material: Polycarbonate Specifi cations Specifi cations Specifi cations

54 Digital Photoelectric Sensor High environmental resistance & cable extension capabilities provide increased installation versatility Extendable sensor head cable FUNCTION Because the sensor head cable is a simple power cable, it can be extended to the desired length. By soldering or using a metal connector, it can be extended to a maximum of m. When jointing fibreoptic sensors Membrane Joining surface The light intensity at the joining surface is attenuated by approximately 90%. NEO Preset NEO MEGA Application function Small size yet high power DATUM function While the conventional PS Series had only FINE and TURBO modes, it is now equipped with additional power modes including MEGA mode, like the FS-N Series. This allows the PS Series to be used in applications where strong light intensity is required. MEGA mode is very effective in environments where water, oil, or dirt may become attached to the sensor. Wide range of sensor head options The PS Series lineup includes a broad range of sensor heads that have a wide variety of special characteristics, such as the environmentally resistant models that are encased in PFA for protection, or the limited range reflective models that are able to avoid the effects of background light. Open field network compatibility Reduced wiring Interference prevention function Pause function Sleep function

55 Thrubeam type Type Appearance Detecting distance * 1 Features Model (C means with connector) MEGA : 00 (000) ULTRA : 0 (000) SUPER : 0 (0) TURBO : (000) Compact body and longdetecting distance PS- (PS-C) [P.9] MEGA : 00 (000) ULTRA : 0 (000) SUPER : 0 (0) TURBO : (000) Compact body and longdetecting distance easy optical-axis alignment PS-0 [P.] General purpose MEGA : 00 ULTRA : 900 SUPER : 0 TURBO : 00 Cylindrical, embedded type PS- [P.9] Thrubeam type MEGA : 10 (00) ULTRA : 00 (00) SUPER : 00 (0) TURBO : 00 (00) MEGA : 0 (900) ULTRA : 00 (00) SUPER : 00 (0) TURBO : 00 (00) MEGA : 00 (000) ULTRA : 0 (000) SUPER : 0 (0) TURBO : (000) MEGA : 900 (00) ULTRA : 00 (900) SUPER : 00 (00) TURBO : 00 (0) Side-to-side type, mm thickness Flat-to-flat type. mm thickness PFA-sheath type, oil-proof, chemical proof PFA-sheath type, Slit* built-in PS- (PS-C) *1 Depends on the mode, response time may be different even with the same detecting distance. Detecting distance in parentheses is a value when enabling the long distance detection mode with a m sensor head cable. * 1 mm slits for both transmitter/receiver. Reflective model Environmentproof Diffusereflective PS- PS-1 (PS-1C) Type Appearance Detecting distance * 1 Features Model (C means with connector) General purpose Environmentproof MEGA : 00 (900) ULTRA : 00 (00) SUPER : (0) TURBO : 0 (00) MEGA : 0 () ULTRA : 0 (0) SUPER : 1 () TURBO : 0 (10) MEGA : ULTRA : SUPER : 0 TURBO : MEGA : 00 (900) ULTRA : 00 (00) SUPER : (0) TURBO : 0 (00) MEGA : ULTRA : 10 SUPER : 0 TURBO : 0 Compact body and longdetecting distance Flat-to-flat type. mm thickness PS- PS- PS- [P.9] [P.9] [P.9] [P.9] [P.] [P.] Cylindrical, embedded type PS- [P.] PFA-sheath type, oil-proof, chemical proof PFA-sheath type, Focused beam small spot PS- PS- [P.9] [P.9] Specifi cations Specifi cations Specifi cations Definitereflective Small spot Long detecting ± * Common for all power modes to * Common for all power modes Small Spot ø0. mm almost unaffected by target background Long distance small spot almost unaffected by target background PS- (PS-C) PS-9 (PS-9C) [P.] [P.] *1 Depends on the mode, response time may be different even with the same detecting distance. Detecting distance in parentheses is a value when enabling the long distance detection mode.

56 Sensor head specifications Thrubeam sensor head Thrubeam type Type General purpose Environment-proof Long-detecting distance Free-positioning Cylindrical Thin Long-detecting distance Slit built-in Model PS- (C )PS-0 PS- PS- (C) PS- PS-1 (C) PS- Detecting distance* 1 Light source MEGA 00 (000) 00 (000) (00) 0 (900) 00 (000) 900 (00) ULTRA 0 (000) 0 (000) (00) 00 (00) 0 (000) 00 (900) SUPER 0 (0) 0 (0) 0 00 (0) 00 (0) 0 (0) 00 (00) TURBO (000) (000) (00) 00 (00) (000) 00 (0) Infrared LED Smallest detectable object* Environmental resistance ø1.0 mm Opaque ø1.0 mm Opaque ø0. mm Opaque ø0. mm Opaque ø0. mm Opaque ø0. mm Opaque Protective structure IP IP IP IP Ambient light Incandescent lamp: 000 lux max., Sunlight: 1 lux max. Ambient temperature/ Relative humidity - to +0 C (No freezing)/ to % RH (No condensation) [P.9] [P.] [P.9] [P.9] [P.9] [P.9] [P.9] ø0. mm Opaque *1 Depends on the mode, response time may be different even with the same detecting distance. Detecting distance in parentheses is a value when enabling the long distance detection mode with a m sensor head cable. * With thrubeam sensors, the smallest detectable object indicates the size of a detectable object from the maximum detecting distance. Reflective sensor head Diffuse-reflective Definite-reflective Type General purpose Environment-proof General purpose Long-detecting distance Thin Cylindrical Long-detecting distance Narrow-beam Small spot Long-detecting distance Model PS- PS- PS- PS- PS- PS- (C) PS-9 (C) MEGA 00 (900) 0 () 00 (900) Detecting ULTRA 00 (00) 0 (0) 00 (00) 10 distance* 1 SUPER (0) 1 () 0 (0) 0 ± to TURBO 0 (00) 0 (10) 0 (00) 0 Light source Infrared LED Red LED Detectable object Transparent and opaque Smallest detectable object* ø0.0 mm ø0.1 mm Copper wire Copper wire Spot diameter ø mm At detecting distance of 0 mm ø mm At detecting distance of mm ø1. mm At detecting distance of 0 mm Hysteresis (of detecting distance) % max. % max. % max. % max. % max. % max. Protective structure IP IP Environmental resistance Ambient light Ambient temperature Incandescent lamp: 000 lux max., Sunlight: 1 lux max. - to +0 C (No freezing) Incandescent lamp: 000 lux max., Sunlight: 000 lux max. to +0 C (No freezing) Relative humidity to % RH (No condensation) [P.] [P.] [P.] [P.9] [P.9] [P.] [P.] *1 Depends on the mode, response time may be different even with the same detecting distance. Detecting distance in parentheses is a value when enabling the long distance detection mode. * With reflective sensors, the smallest detectable object was determined at the optimal detecting distance and sensitivity setting. Options Model number Applicable model Type OP- PS- OP-9 PS-0 Slit (detecting distance: 00 mm) (transmitter/receiver set) OP-0 PS- (accessory) PS- mounting bracket set OP-0 PS-, (accessory) Mounting nut set for PS- OP- PS- Mounting bracket set for PS- OP-9 PS- (accessory) PS- mounting bracket OP-0 PS- (accessory) PS- mounting bracket OP-00 PS-1 (accessory) PS mounting bracket OP-00 PS-1, (accessory) PS-1 mounting bracket (one side only) OP-9 Amplifier (accessory) Connector for sensor head () OP-11 PS-, 0,,, Thrubeam transmitter side cable ( m) OP-11 PS-, 0,,, Thrubeam receiver side cable ( m) OP-1 PS-,,, 9 Refl ective (except PS-) cable ( m) OP-11 PS-1, PFA thrubeam transmitter side cable ( m) OP-11 PS-1, PFA thrubeam receiver side cable ( m) OP-11 PS-, PFA Reflective cable ( m)

57 Amplifier Cable type Type Appearance Model NPN output PNP output Control outputs External input Monitor output Standard Main unit Expansion unit Main unit Expansion unit PS-N11N PS-NN PS-N11P PS-NP [P.0] M connector type Type Appearance Model NPN output PNP output Control outputs External input Monitor output Standard Main unit Expansion unit Main unit Expansion unit PS-N11CN PS-NCN PS-N11CP PS-NCP [P.0] Zero line type Standard Type Appearance Model Expansion unit *1 Counted as one output when added to a NU Series communication unit. Specifications I/O Circuit Diagram PS-N Control outputs External input Monitor output None* [P.0] Type Cable M connector Zero line Main/Expansion unit Main unit Expansion unit Main unit Expansion unit Expansion unit Model NPN PS-N11N PS-NN PS-N11CN PS-NCN PNP PS-N11P PS-NP PS-N11CP PS-NCP PS-N I/O Control outputs 1 output 1 output None* 1 External input 1 input None 1 input 1 input None Response time 00 μs (TURBO)/1 ms (SUPER)/ ms (ULTRA)/1 ms (MEGA) Output selection LIGHT-ON/DARK-ON (switch-selectable) Timer function Timer OFF/OFF-delay timer/on-delay timer/one-shot timer, Timer duration selectable: 1 ms to 9999 ms, Maximum error against the setting value: ±% max. Control NPN output NPN open connector 0 V, (without expansion) 0 ma max., (with expansion) ma max, residual voltage 1 V max. (when the out current is ma or less)/ V max. (when the output current is to 0 ma) outputs PNP open connector 0 V, (without expansion) 0 ma max., (with expansion) ma max, PNP output residual voltage 1. V max. (when the output current is ma or less)/. V max. (when the output current is to 0 ma) External input Input time ms (ON)/ ms (OFF) or more* Multiple connections to expansion units Up to 1 main units can be connected Protection circuit Reverse polarity protection, Over-current protection, Surge absorber Number of interference prevention units for TURBO/SUPER/ULTRA/MEGA (When set to DOUBLE, the number of interference-prevention units will be doubled) Power voltage NPN Power consumption PNP Environmental resistance Normal: mw or less (at 0 V. ma max. at V, ma max. at V) Eco on mode: 00 mw or less (at 0 V. ma max. at V, ma max. at V) Eco Full mode: 90 mw or less (at 0 V. 1 ma max. at V, ma max. at V) Normal: 0 mw or less (at 0 V. 0 ma max. at V, ma max. at V) Eco on mode (ALL): 0 mw or less (at 0 V. ma max. at V, ma max. at V) Eco Full mode: 0 mw or less (at 0 V. 19 ma max. at V, 1 ma max. at V) Ambient temperature - C to + C (No freezing)* Relative humidity to % RH, (No condensation) Vibration resistance to Hz, double amplitude: 1. mm, hours each in the X, Y and Z axis Shock resistance 00 m/s times for each of X,Y and Z axis Material Case Main unit and cover material: Polycarbonate Cable PVC Case size H. mm W 9. mm L. mm Weight Approx. g Approx. g Approx. g Approx. g Approx. g *1 Counted as one output when added to a NU Series communication unit. * Input time is ms (ON)/ ms (OFF) when the external calibration time is selected. * If more than one unit is used together, the ambient temperature varies with the conditions below. Mount the units on the DIN rail with mounting brackets and check that the output current is ma or less for a unit. One or two more units connected: - C to + C ; to more units connected: - C to +0 C; 11 to 1 more units connected: - C to + C. Specifications Specifications Specifications Cable type M connector type PS-N11N/NN PS-N11P/NP PS-N11CN/NCN PS-N11CP/NCP Sensor main circuit Overcurrent protection circuit. VDC *1 PS-N11N only Brown *1 Load -0 VDC Black (Control output) Short-circuit Pink *1 PLC, etc. current 1 ma or less 0 V Blue *1 Sensor main circuit Overcurrent protection circuit *1 PS-N11P only Brown *1 Black (Control output) Pink *1 Blue *1 Load -0 VDC PLC, etc. Short-circuit current ma or less 0 V Sensor main circuit Overcurrent protection circuit. VDC *1 PS-N11CN only *1 (Control output) Load -0 VDC Short-circuit PLC, etc. current 1 ma or less 0 V *1 Sensor main circuit Overcurrent protection circuit *1 PS-N11CP only *1 (Control output) *1 Load -0 VDC PLC, etc. Short-circuit current ma or less 0 V

58 Sensor head PS-0 Top view With PS-0 slit attached (option OP-9) Holder (accessory) PS-0 11 ø. ø ø 0 M mounting screw 11 1 ø ø1., 1-core shielded Cable length: m, oil-proof Accessory Screw (M 1) flat washer, each (to secure head) spring washer, nut Screw (M ) spring washer each (to secure holder) -ø. (Mounting hole) 1. PS- PS- -ø. (mounting hole) ø1. -1-core shielded Cable length: m, oil-proof Accessory Screws (M ), pieces Mounting bracket (accessory) for PS- (option OP-0) *Detail of slot -M slots* t= t=1.0. -ø.1 -ø. mounting hole Spot facing: ø. 1. (d) ø1., 1-core shielded Cable length: m, oil-proof Accessory Screws (M ), pieces Nut, spring washer, flat washer: each 1. PS- (C)PS-9 PS- (C) ø1., 1-core shielded Cable length: m, oil-proof 9 ø 1.. (cylindrical) 1-core shielded. Cable length: m 9.. -ø. (Mounting hole) Mounting bracket (accessory) for PS- (option OP-9) ø. (Mounting hole) Slot* ø. (mounting hole). ø 1., 1-core shielded Cable length: m... t=0. *Detail of slot

59 CAD Data Download: Unit : mm PS- (C). PS- (C) -ø.. (mounting hole) With PS- (C) slit attached (option OP-) ø 1 -ø. mounting hole ø1., 1-core shielded 1. Cable length: m, oil-proof Accessory Screws (M ), pieces Nut, spring washer, flat washer: each ø. 1. ø ø1., 1-core shielded Cable length: m, oil-proof PS- Receiver ø..... ø ø. (mounting hole) Spot facing: ø. 1. (d) ø1., 1-core shielded Cable length: m, oil-proof Accessory Screws (M ), pieces Nut, spring washer, flat washer: each PS-1 (C)/ PS- ø 1., 1-core shielded Cable length: m (PFA-sheathed) Mounting bracket (accessory) for PS-1 (C)/PS- (option for one side only: OP-00) slots* (Mounting hole). Transmitter PS- -R.. ø.1.. (cylindrical) Cable length: m PFA-sheathed 1-core shielded -ø. (mounting hole) Spot facing: ø. 1. (d). ø1., 1-core shielded Cable length: m, oil-proof ø. (mounting hole). PS- ø. -R.... (cylindrical) Cable length: m PFA-sheathed 1-core shielded ø1., 1-core shielded Cable length: m, oil-proof Mounting bracket (accessory) for PS- (option for one side only: OP-0) PS- ø. (mounting hole) 9 1. Slot* t= *Detail of slot -ø. (mounting hole). Specifi cations Specifi cations Specifi cations (.). *Detail of slot.. t=0. SUS0 9

60 Amplifi er CAD Data Download: Unit : mm PS-N11N/N11P Cable type, Main unit ø.9, -core Brown/Blue: 0. mm², Black/Pink: 0.1 mm² Cable length: m 9. PS-NN/NP Cable type, Expansion unit 9. ø., 1-core Black 0. mm² Cable length: m Maximum when the cover is opened... (.) 10 m ax. Maximum when the cover is opened... (.) (1) (1)... min.... min. PS-N11CN/N11CP M connector type, Main unit PS-NCN/NCP M connector type, Expansion unit 9. ø. 9. ø. Maximum when the cover is opened... (.) 10 m ax. Maximum when the cover is opened... (.) (.) (.)... M connector M connector 9. M connector cable (OP- / sold separately) M connector junction cable (OP-9 sold separately) Cable length L(m) OP- OP- ø9. (.) L ø. -core 0. mm². ø. 0. mm². ø9. ø9 ø9.. M 1 PS-N Zero line type, Expansion unit 9. OP-199 Conversion adaptor 9.9 When the end unit is attached (OP-1 sold separately) Maximum when the cover is opened.. DIN-rail mounting. (.) (9.) (.) Material: Polycarbonate Common for all types When the mounting bracket is attached (OP-0 sold separately) When several units are connected: End unit End unit* 1 L No. of units L Cable type M connector type (1.) -ø. Spot facing: ø., d=. (1.). (0.9). (0.9) Reverse side of mounting bracket 1 Material: Polycarbonate -(..) Spot facing: ø., d=. 9. *1 End units must be used when several units are connected.(op-1) ø. Spot facing: ø., d=. 0

61 Common options for LV-NEO/FS-NEO/PS-NEO Type Appearance Description Model Can be installed without a DIN-rail. Can be installed from above or side as shown in right. Amplifier securing bracket (for main unit) OP-0 [P.] Used to secure the main and expansion units. End unit (when using expansion units) M connector cable ( m/ m) M connector junction cable ( m) Expansion Converter Unit per set Used to connect to the M connector type amplifier (model numbers end with a CN or CP ). Connector cables are not included with the amplifier. Used to extend the M connector cable. The LV-NEO / FS-NEO / PS-NEO Series has different amplifier connectors than the FS-V0, LV, and CZ series. This is an adapter to connect these models. It supplies power from the main unit to the expansion unit and prevents interference. *Communication is not supported. OP-1 m type OP- m type OP- OP-9 OP-199 [P.] [P.] [P.] [P.] Specifi cations Specifi cations Specifi cations 1

62 Network Communication Unit Incorporate the NEO Series with an open field network for complete interfacing versatility CC-Link Network Communication unit NU-CL1 DeviceNet Network Communication unit NU-DN1 EtherNet/IP Network Communication unit NU-EP1 EtherCAT Network Communication unit NU-EC1 In addition to saving space and achieving a dramatic reduction in wiring, the remote management of multiple sensors significantly improves convenience and functionality. Compatible with multiple open field networks KEYENCE has developed communication units that are compatible with open field networks (CC-Link, DeviceNet, EtherNet/IP, EtherCAT). These units enable the NEO Series sensors to be installed and used on the same network as a variety of devices from other manufacturers. PLC Touch panel Computer NU Series + NEO Series Manifold electromagnetic valve Inverter Robot PLC Remote I/O * System names and product names mentioned in this document are the trademarks or registered trademarks of their respective owners.

63 Dramatic reduction in wiring and installation time Only a single communication cable is required between the PC/PLC and the NU Series for wiring. This achieves a dramatic reduction in wiring and saves a significant amount of space. In addition, wiring work that conventionally requires a great deal of time and effort has been greatly reduced. Reduced production costs by introducing the NU Series No need to trim the cables No need for a terminal block No need for a complicated cable layout No additional wiring required when replacing sensors By utilising the network, multiple sensors that exist on the same line can be simultaneously managed, signifi cantly increasing convenience and ease-of-use in the fi eld. The status of the sensors can be monitored and settings for all of the sensors can modified together from a touch panel or computer. Monitoring <Conventional> I want to check on the sensors before a detection error stops production, but it is too troublesome to go and look at each individual sensor... <NU Series> Easy monitoring from the display! The sensor status can be monitored on an HMI, PLC, or PC, making it easier to detect problems before an error occurs. Multiple sensors can be simultaneously managed Product change <Conventional> Because multiple products are manufactured on the same line, settings need to be adjusted frequently, but it is time consuming to have to adjust each individual sensor every time <NU Series> Product change with the push of a button! The NU allows for settings to be changed externally from an HMI, PLC, or PC. As a result, changeover time can be reduced, even where sensor settings must be changed frequently. New lineup of sensor input units The e-con connection unit can be used for sensors, electromagnetic valves, and cylinder switches other than the NEO Series models. The ON/OFF status can be displayed and checked on a touch panel or computer. No wires Sensor status log <Conventional> A sensor malfunction has occurred and I want to check it, but it doesn t seem to reoccur... I cannot waste time just watching and waiting. <NU Series> Troubleshooting made easy! If sensor information (light intensity/ setting values/error output) is stored in the log, the cause of minor errors is easily identifi ed. e-con Network Communication Input Unit NU-ENN Specifi cations Specifi cations Specifi cations