E3X-N Teaching Optical Fiber Photoelectric Sensor Sensitivity Easily Adjusted with Teaching Four Amplifiers built into Four-channel Fiber Amplifier Models. Four Fiber Units can be wired close together and connected to a Four-channel Fiber Amplifier without mutual interference. Compact with a width of 32 mm (Four-channel Fiber Amplifier Models) and a width of 10 mm (One-channel Fiber Amplifier Models). Built-in initial operating level compensation function allows no-object teaching. Ordering Information Amplifier Units Item Model Generalpurpose E3X-NT11 (NPN output) E3X-NT41 (PNP output) Multi-function E3X-NT21 (NPN output) E3X-NT51 (PNP output) Four-channel E3X-NM11 (NPN output) E3X-NM41 (PNP output) Waterproof red light source E3X-NV21 (NPN output) Waterproof green light source E3X-NVG21 (NPN output) Appearance 33 33.2 32.5 59 59 32.2 10 59 12 Light source Red LED (λ = 680 nm) Power supply voltage 12 to 24 VDC ±10%, ripple (p-p) 10% max. Current consumption 50 mA max. Response time 500 µs max. at rated sensing distance Control output PNP or NPN open collector, load current: 100 mA, residual voltage: 1 V max. Timer function (see note) --- Teaching confirmation function Indicator (red/green LEDs) and buzzer Remote teaching input --- Output Light ON and Dark ON switch selectable Note: Green LED (λ = 565 nm) 150 mA max. OFF-delay timer (fixed to 40 ms) OFF-delay timer (fixed to 40 ms) (independent channel) Pink and blue (0 V) wires are short-circuited when remote input is ON. (0 V short-circuit current: 1 mA max.) Pink and blue (0 V) wires are not short-circuited when remote input is OFF. (Open or 9 V min.; max. input voltage: 24 V) Response time is 0.5 ms max. when remote input is OFF. 50 mA max. OFF-delay timer (fixed to 40 ms) Blue and pink wires are short-circuited when remote input is ON. Blue and pink wires are not short-circuited when remote input is OFF. It is possible to disable the OFF-delay timer function by using the switch setting. 1 E3X-N E3X-N Fiber Unit Indicates models that allow free cutting. Models without this mark do not allow free cutting. Through-beam (Separate) Sensors Model Appearance E32-T11L M4 screw E32-T12L 3-mm dia. E32-T21L M3 screw E32-T22L 2-mm dia. E32-TC200 M4 screw E32-TC200B E32-TC200B4 90 mm (40 mm) M4 screw ( ): E32-TC200B4 E32-T22 E32-TC200E M3 screw 90 mm (40 mm) M3 screw ( ): E32-TC200F4 E32-TC200A M3 screw E32-T11 M4 screw E32-T21 M3 screw E32-T14L E32-T24 E32-T14 *1 2 3-mm dia. 1-mm dia. Min. sensing object (opaque objects) 540 mm (1,280 mm*1) (1.4-mm dia. min.) 500 mm (1,200 mm*1) (1.4-mm dia. min.) NT: NM: NV: 540 mm (1,280 mm*1) (1.4-mm dia. min.) NV: 0.15-mm dia. NVG: 40 mm (120 mm*1) (1.4-mm dia. min.) NVG: 0.5-mm dia. NT: NM: 540 mm (1.4-mm dia. min.) 500 mm (1.4-mm dia. min.) NT: NM: 0.15-mm dia. 0.2-mm dia. NV: 540 mm (1.4-mm dia. min.) NV: 0.15-mm dia. NVG: 40 mm (1.4-mm dia. min.) NVG: 0.5-mm dia. NT: NM: 160 mm (0.9-mm dia. min.) 150 mm (0.9-mm dia. min.) NT: NM: 0.1-mm dia. 0.2-mm dia. NV: 160 mm (0.9-mm dia. min.) NV: 0.1-mm dia. NVG: 10 mm (0.9-mm dia. min.) NVG: 0.2-mm dia. NT: NM: 160 mm (0.9-mm dia. min.) 150 mm (0.9-mm dia. min.) NT: NM: 0.1-mm dia. 0.2-mm dia. NV: 160 mm (0.9-mm dia. min.) NV: 0.1-mm dia. NVG: 10 mm (0.9-mm dia. min.) NVG: 0.2-mm dia. NT: NM: 290 mm (2,100 mm*1) (1-mm dia. min.) 270 mm (2,000 mm*1) (1-mm dia. min.) NT: NM: 0.1-mm dia. 0.2-mm dia. NV: 290 mm (2,100 mm*1) (1-mm dia. min.) NV: 0.1-mm dia. NVG: 28 mm (190 mm*1) (1-mm dia. min.) NVG: 0.2-mm dia. NT: 290 mm (1-mm dia. min.) NM: 270 mm (1-mm dia. min.) NT: NM: 0.1-mm dia. 0.2-mm dia. NV: 290 mm (1-mm dia. min.) NV: 0.1-mm dia. NVG: 28 mm (1-mm dia. min.) NVG: 0.2-mm dia. 75 mm (0.5-mm dia. min.) 70 mm (0.5-mm dia. min.) NT: NM: 0.1-mm dia. 0.2-mm dia. NV: 75 mm (0.5-mm dia. min.) NV: 0.1-mm dia. NVG: 7 mm (0.5-mm dia. min.) NVG: 0.1-mm dia. NT: NM: 75 mm (0.5-mm dia. min.) 70 mm (0.5-mm dia. min.) NT: NM: 0.1-mm dia. 0.2-mm dia. NV: 75 mm (0.5-mm dia. min.) NV: 0.1-mm dia. NVG: 8 mm (0.5-mm dia. min.) NVG: 0.1-mm dia. NT: NM: 75 mm (0.5-mm dia. min.) 70 mm (0.5-mm dia. min.) NT: NM: 0.1-mm dia. 0.2-mm dia. NV: 75 mm (0.5-mm dia. min.) NV: 0.1-mm dia. NVG: 8 mm (0.5-mm dia. min.) NVG: 0.1-mm dia. NT: NM: 270 mm (1-mm dia. min.) 250 mm (1-mm dia. min.) NT: NM: 0.1-mm dia. 0.2-mm dia. NV: 270 mm (1-mm dia. min.) NV: 0.1-mm dia. NVG: 28 mm (1-mm dia. min.) NVG: 0.2-mm dia. NT: NM: 260 mm (1,400 mm*1) (1-mm dia. min.) 240 mm (1,300 mm*1) (1-mm dia. min.) NT: NM: 0.1-mm dia. 0.2-mm dia. NV: 260 mm (1,400 mm*1) (1-mm dia. min.) NV: 0.1-mm dia. NVG: 10 mm (120 mm*1) (1-mm dia. min.) NVG: 0.2-mm dia. NT: NM: 70 mm (0.5-mm dia. min.) 65 mm (0.5-mm dia. min.) NT: NM: 0.1-mm dia. 0.2-mm dia. NV: 70 mm (0.5-mm dia. min.) NV: 0.1-mm dia. NVG: 6 mm (0.5-mm dia. min.) NVG: 0.1-mm dia. NT: NM: 140 mm (1-mm dia. min.) 130 mm (1-mm dia. min.) NT: NM: 0.2-mm dia. 0.3-mm dia. NV: 140 mm (1-mm dia. min.) NV: 0.2-mm dia. NVG: 10 mm (1-mm dia. min.) NVG: 0.1-mm dia. NT: NM: 48 mm (0.5-mm dia. min.) 45 mm (0.5-mm dia. min.) NT: NM: 0.1-mm dia. 0.2-mm dia. NV: 48 mm (0.5-mm dia. min.) NV: 0.1-mm dia. NVG: 2 mm (0.5-mm dia. min.) NVG: 0.2-mm dia. NT: NM: 1,070 mm (4-mm dia. min.) 1,000 mm (4-mm dia. min.) NT: NM: 0.2-mm dia. 0.2-mm dia. NV: 1,070 mm (4-mm dia. min.) NV: 0.2-mm dia. NVG: 80 mm (4-mm dia. min.) NVG: 0.2-mm dia. NT: NM: NT: NM: 2-mm dia. E32-TC200F E32-TC200F4 Sensing distance (standard object: opaque) (NT: E3X-NTjj; NM: E3X-NMjj NV: E3X-NV21; NVG: E3X-NVG21) Values in parentheses are for cases where the E39-F1 Lens Unit is used. 0.15-mm dia. 0.2-mm dia. Features Long distance Long distance Long distance with thin fiber Long distance with thin fiber General-purpose General-purpose General-purpose General-purpose General-purpose General-purpose Flexible (resists breaking) Flexible (resists breaking) Side-view; long distance Side-view; space saving Side-view; screw tightening type E3X-N E3X-N Indicates models that allow free cutting. Models without this mark do not allow free cutting. Model Appearance E32-T17L NT: NM: M4 screw E32-T12F 5-mm dia. E32-T14F 5-mm dia. E32-M21 M3 screw E32-T51 M4 screw E32-T54 Sensing distance (standard object: opaque) (NT: E3X-NTjj; NM: E3X-NMjj NV: E3X-NV21; NVG: E3X-NVG21) 2-mm dia. E32-T61 M4 screw Min. sensing object (opaque objects) 7,500 mm (10-mm dia. min.) 7,000 mm (10-mm dia. min.) NT: NM: 0.5-mm dia. 0.7-mm dia. NV: 7,500 mm (10-mm dia. min.) NV: 0.5-mm dia. NVG: 800 mm (10-mm dia. min.) NVG: 2.1-mm dia. NT: NM: 1,070 mm (4-mm dia. min.) 1,000 mm (4-mm dia. min.) NT: NM: 0.3-mm dia. 0.3-mm dia. NV: 1,070 mm (4-mm dia. min.) NV: 0.3-mm dia. NVG: 70 mm (4-mm dia. min.) NVG: 0.6-mm dia. Features Through-beam with lens, for ideal explosion-proof applications Teflon-covered*2; withstands chemicals and harsh environments NT: 110 mm (3-mm dia. min.) NM: 100 mm (3-mm dia. min.) NT: 0.3-mm dia. NM: 0.3-mm dia. Teflon covered*2 ; side-view; withstands chemicals and harsh environments NT: 210 mm (2-mm dia. min.) NM: 200 mm (2-mm dia. min.) NT: 0.1-mm dia. NM: 0.2-mm dia. 4-head; 4-point detection NV: 210 mm (2-mm dia. min.) NV: 0.1-mm dia. NVG: 20 mm (2-mm dia. min.) NVG: 0.3-min. dia. NT: 320 mm (1.5-mm dia. min.) NM: 300 mm (1.5-mm dia. min.) NT: 0.3-mm dia. NM: 0.4-mm dia. NV: 320 mm (1.5-mm dia. min.) NV: 0.3-mm dia. NVG: 20 mm (1.5-mm dia. min.) NVG: 1.0-min. dia. Heat-resistive; resists 150°C NT: 85 mm (1-mm dia. min.) NM: 70 mm (1-mm dia. min.) NT: 0.4-mm dia. NM: 0.4-mm dia. Heat-resistive; side-view; resists 150°C NT: 190 mm (2,100 mm*1) (1-mm dia. min.) NM: 180 mm (2,000 mm*1) (1-mm dia. min.) NT: 0.15-mm dia. NM: 0.2-mm dia. Heat-resistive; resists 300°C*3 NV: 190 mm (2,100 mm*1) (1-mm dia. min.) NV: 0.15-mm dia. NVG: 18 mm (130 mm*1) (1-mm dia. min.) NVG: 0.5-min. dia. *1 Values in parentheses are for cases where the E39-F1 Lens Unit is used. The operating ambient temperature is from –40_C to 200_C for the E39-F1 specifications. *2 Teflon is a registered trademark of the Dupont Company and the Mitsui Dupont Chemical Company for their fluoride resin. *3 The resistive temperature varies with the part of the Fiber Unit. For details, refer to Dimensions. Indicates models that allow free cutting. Models without this mark do not allow free cutting. Reflective Sensors Model Appearance Sensing distance (standard object: opaque) (NT: E3X-NTjj; NM: E3X-NMjj NV: E3X-NV21; NVG: E3X-NVG21) White paper E32-D11L M6 screw E32-D12 3-mm dia. E32-D21L M4 screw E32-D22L 3-mm dia. E32-DC200 M6 screw E32-DC200B E32-DC200B4 90 mm (40 mm) M6 screw ( ): E32-DC200B4 E32-DC200E M3 screw Black paper Min. sensing object (copper wire) Features Standard object NT: 160 mm NM: 150 mm NT: 44 mm NM: 40 mm NT: 20 x 20 cm NM: 20 x 20 cm NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 160 mm NV: 44 mm NV: 20 x 20 cm NV: 0.012-mm dia. NVG: 10 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 3.0-mm dia. NT: 85 mm NM: 80 mm NT: 22 mm NM: 20 mm NT: 10 x 10 cm NM: 10 x 10 cm NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 85 mm NV: 22 mm NV: 10 x 10 cm NV: 0.012-mm dia. NVG: 2 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 1.6-mm dia. NT: 38 mm NM: 35 mm NT: 10 mm NM: 9 mm NT: 5 x 5 cm NM: 5 x 5 cm NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 38 mm NV: 10 mm NV: 5 x 5 cm NV: 0.012-mm dia. NVG: 1 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 1.0-mm dia. NT: 38 mm NM: 35 mm NT: 10 mm NM: 9 mm NT: 5 x 5 cm NM: 5 x 5 cm NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 38 mm NV: 10 mm NV: 5 x 5 cm NV: 0.012-mm dia. NVG: 1 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 1.0-mm dia. NT: 110 mm NM: 100 mm NT: 22 mm NM: 20 mm NT: 10 x 10 cm NM: 10 x 10 cm NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 110 mm NV: 22 mm NV: 10 x 10 cm NV: 0.012-mm dia. NVG: 10 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 0.2-mm dia. NT: 110 mm NM: 100 mm NT: 22 mm NM: 20 mm NT: 10 x 10 cm NM: 10 x 10 cm NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 110 mm NV: 22 mm NV: 10 x 10 cm NV: 0.012-mm dia. NVG: 10 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 1.0-mm dia. NT: 22 mm NM: 20 mm NT: 5 mm NM: 4.8 mm NT: 2.5 x 2.5 cm NM: 2.5 x 2.5 cm NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 22 mm NV: 5 mm NV: 2.5 x 2.5 cm NV: 0.012-mm dia. NVG: 2 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 1.0-mm dia. Long distance Long distance Long distance Long distance General-purpose General-purpose General-purpose 3 E3X-N E3X-N Indicates models that allow free cutting. Models without this mark do not allow free cutting. Model Appearance Sensing distance (standard object: opaque) (NT: E3X-NTjj; NM: E3X-NMjj NV: E3X-NV21; NVG: E3X-NVG21) White paper E32-DC200F E32-DC200F4 90 mm (40 mm) M3 screw ( ): E32-DC200F4 E32-D11 M6 screw E32-D21 M3 screw Black paper Features Min. sensing object (copper wire) Standard object NT: 22 mm NM: 20 mm NT: 5 mm NM: 4.8 mm NT: 2.5 x 2.5 cm NM: 2.5 x 2.5 cm NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 22 mm NV: 5 mm NV: 2.5 x 2.5 cm NV: 0.012-mm dia. NVG: 2 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 1.0-mm dia. NT: 65 mm NM: 60 mm NT: 14 mm NM: 13 mm NT: 10 x 10 cm NM: 10 x 10 cm NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 65 mm NV: 14 mm NV: 10 x 10 cm NV: 0.012-mm dia. NVG: 7 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 0.5-mm dia. NT: 9 mm NM: 8 mm NT: 1.7 mm NM: 1.6 mm NT: 2.5 x 2.5 cm NM: 2.5 x 2.5 cm NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 9 mm NV: 1.7 mm NV: 2.5 x 2.5 cm NV: 0.012-mm dia. NVG: 1 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 1.0-mm dia. General-purpose Flexible (resists breaking) Flexible (resists breaking) Indicates models that allow free cutting. Models without this mark do not allow free cutting. Model Appearance Sensing distance (standard object) (NT: E3X-NTjj; NM: E3X-NMjj NV: E3X-NV21; NVG: E3X-NVG21) White paper E32-D33 3-mm dia. 0.8-mm dia. E32-CC200 M6 screw E32-D32 2-mm dia. E32-D32L 3-mm dia. E32-D14L E32-D24 6-mm dia. 2-mm dia. E32-D12F 6-mm dia. E32-D51 M6 screw E32-D61 M6 screw E32-D73 M4 screw 1.25-mm dia. Note: Black paper NT: 7 mm NM: 6 mm NT: 1.4 mm NM: 1.3 mm NV: NV: 7 mm Min. sensing object (copper wire) Standard object 2.5 x 2.5 cm 1.4 mm NT: 0.012-mm dia. NM: 0.015-mm dia. NV: NT: 22 mm NM: 20 mm NT: 10 x 10 cm NM: 10 x 10 cm NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 110 mm NV: 22 mm NV: 10 x 10 cm NV: 0.012-mm dia. NVG: 10 mm NVG: 2 mm NVG: 2.5 x 2.5 cm NVG: 0.5-mm dia. 2.5 x 2.5 cm Super-thin; minute object detection 0.012-mm dia. NT: 110 mm NM: 100 mm NT: 33 mm NM: 30 mm NT: 5.8 mm NM: 5.3 mm NV: 33 mm NV: 5.8 mm NV: 0.012-mm dia. NVG: 2.5 mm NVG: --- NVG: 0.5-mm dia. Coaxial; positioning accuracy NT: 0.012-mm dia. NM: 0.015-mm dia. NT: 65 mm NM: 60 mm NT: 11 mm NM: 10 mm NT: 10 x 10 cm NM: 10 x 10 cm NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 65 mm NV: 11 mm NV: 10 x 10 cm NV: 0.012-mm dia. NVG: 4 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 1-mm dia. NT: 44 mm NM: 40 mm NT: 8.8 mm NM: 8 mm NT: 5 x 5 cm NM: 5 x 5 cm NT: 0.015-mm dia. NM: 0.03-mm dia. NV: 44 mm 5 x 5 cm NV: 0.015-mm dia. 1.5 mm NV: 8.8 mm NVG: --- NV: NVG: NVG: 2.5 x 2.5 cm NVG: 1.0-mm dia. NT: 17 mm NM: 15 mm NT: 2.8 mm NM: 2.5 mm 2.5 x 2.5 cm NV: 17 mm NV: 2.8 mm NV: 0.012-mm dia. NVG: 1.6 mm NVG: --- NVG: 1.0-mm dia. NT: 0.012-mm dia. NM: 0.03-mm dia. NT: 55 mm NM: 50 mm NT: 16 mm NM: 15 mm NT: 5 x 5 cm NM: 5 x 5 cm NT: 0.012-mm dia. NM: 0.03-mm dia. NV: 55 mm NV: 16 mm NV: 5 x 5 cm NV: 0.012-mm dia. NVG: 4 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 0.5-mm dia. NT: 65 mm NM: 60 mm NT: 13 mm NM: 12 mm NT: 10 x 10 cm NM: 10 x 10 cm NT: 0.012-mm dia. NM: 0.03-mm dia. NV: 65 mm NV: 13 mm NV: 10 x 10 cm NV: 0.012-mm dia. NVG: 5 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 1.0-mm dia. NT: 50 mm NM: 45 mm NT: 10 mm NM: 9 mm NT: 5 x 5 cm NM: 5 x 5 cm NT: 0.012-mm dia. NM: 0.03-mm dia. NV: 50 mm NV: 10 mm NV: 5 x 5 cm NV: 0.012-mm dia. NVG: 5 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 1.0-mm dia. NT: 33 mm NM: 30 mm NT: 6.6 mm NM: 6 mm NT: 5 x 5 cm NM: 5 x 5 cm NT: 0.012-mm dia. NM: 0.03-mm dia. NV: 33 mm NV: 6.6 mm NV: 5 x 5 cm NV: 0.012-mm dia. NVG: 3 mm NVG: --- NVG: 2.5 x 2.5 cm NVG: 1.0-mm dia. Side-view; long distance Side-view; space saving Teflon-covered*1; withstands chemicals and harsh environments Heat-resistive*2; resists 150°C Heat-resistive*3; resists 300°C Heat-resistive*3; resists 400°C The Sensor may be set to the light-ON state if the sensitivity (teaching) is set to maximum, in which case, use the Sensor at a sensitivity setting other than the maximum level. *1 Teflon is a registered trademark of the Dupont Company and the Mitsui Dupont Chemical Company for their fluoride resin. *2 For continuous operation, use the products within the temperature ranging from –40_C to 130_C. *3 The resistive temperature varies with the part of the Fiber Unit. For details, refer to Dimensions. 4 Features E3X-N E3X-N Indicates models that allow free cutting. Models without this mark do not allow free cutting. Model Appearance Sensing distance (standard object: opaque) (NT: E3X-NTjj; NM: E3X-NMjj NV: E3X-NV21; NVG: E3X-NVG21) White paper E32-R21 +E39-R3*4 M6 screw Reflector E39-R3 NT: 25 to 250 mm (35-mm dia. min.)*1 NM: 25 to 250 mm (35-mm dia. min.)*1 NV: E32-R16 +E39-R1*4 150 to 1,500 mm (35-mm dia. min.)*1 NM: 150 to 1,500 mm (35-mm dia. min.)*1 NV: Black paper --- NT: 0.3-mm dia. NM: 0.6-mm dia. NV: 0.3-mm dia. Transparent objects detection Retroreflective (with M.S.R. function)*5 25 to 250 mm ( 35-mm dia. min.) NT: Reflector E39-R1 Features Min. sensing object (copper wire) --- NT: 0.5-mm dia. NM: 1.9-mm dia. NV: Transparent objects detection 0.5-mm dia. 150 to 1,500 mm (35-mm dia. min.)*1 E32-L25*2 NT: 3.3 mm (2.5 x 2.5 cm) NM: 3.3 mm (2.5 x 2.5 cm) NV: E32-L25A*2 NT: 3.3 mm (2.5 x 2.5 cm) NM: 3.3 mm (2.5 c 2.5 cm) NV: E32-L25L*2, 3 NV: NV: --- --- 4±2 mm (2.5 x 2.5 cm) 0.012-mm dia. NT: 0.012-mm dia. NM: 0.015-mm dia. NV: --- 0.012-mm dia. NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 7.2±1.8 mm (2.5 x 2.5 cm*1) NT: 4±2 mm (2.5 x 2.5 cm) NM: 4±2 mm (2.5 x 2.5 cm) NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 3.3 mm (2.5 x 2.5 cm*1) NT: 7.2±1.8 mm (2.5 x 2.5 cm) NM: 7.2±1.8 mm (2.5 x 2.5 cm) E32-L24L*3 --- 3.3 mm (2.5 x 2.5 cm) 0.012-mm dia. NT: 0.012-mm dia. NM: 0.015-mm dia. NV: 0.012-mm dia. Limited reflective; detects wafers and small difference in height Limited reflective; detects wafers and small difference in height Limited reflective, long distance; detects wafers and small difference in height Limited reflective, long distance, side-view; detects wafers and small difference in height *1 Standard object: opaque *2 For standard sensing distances, refer to Dimensions. *3 For continuous operation, use the products within the temperature ranging from –40_C to 90_C. *4 The operating ambient temperature of the reflectors supplied with the product are the same as that for the E32-R21 and E32-R16. *5 The M.S.R. (mirror surface rejection) function provides stable sensing for glossy objects. Indicates models that allow free cutting. Models without this mark do not allow free cutting. Fine Through-beam Sensors Model Appearance E32-T22S 3-mm dia. E32-T24S 3.5 x 3 mm dia. E32-T84S Sensing distance (standard object: opaque) (NT: E3X-NTjj; NM: E3X-NMjj NV: E3X-NV21; NVG: E3X-NVG21) Min. sensing object (opaque objects) NT: 650 mm (1.7-mm dia. min.) NM: 650 mm (1.7-mm dia. min.) NT: 0.2-mm dia. NM: 0.4-mm dia. NV: NV: 650 mm (1.7-mm dia. min.) 0.2-mm dia. NT: 480 mm (2-mm dia. min.) NM: 450 mm (2-mm dia. min.) NT: 0.2-mm dia. NM: 0.4-mm dia. NV: NV: 480 mm (2-mm dia. min.) 0.2-mm dia. NT: 480 mm (2-mm dia. min.) NM: 450 mm (2-mm dia. min.) NT: 0.3-mm dia. NM: 0.3-mm dia. NV: NV: 480 mm (2-mm dia. min.) 0.3-mm dia. Features General-purpose; detects wafers and small difference in height Side-view; detects wafers and small difference in height L-shaped through-beam; heat resistance of up to 200_C.* * The resistive temperature varies with the part of the Fiber Unit. For details, refer to Dimensions. Slot Sensor Model E32-G14 Appearance Sensing distance (standard object: opaque) (NT: E3X-NTjj; NM: E3X-NMjj NV: E3X-NV21; NVG: E3X-NVG21) 10 mm (slot width)*1 (4-mm dia. min.) Min. sensing object (opaque objects) NT: 0.4-mm dia. NM: 0.7-mm dia. NV: 0.4-mm dia. NVG: 0.6-mm dia. Features Slot through-beam; no optical axis adjustment required *1 No-object teaching is not possible with the E32-G14 because the sensing distance of the E32-G14 is short and the light will be excessive. Perform with/without-object teaching instead. 5 E3X-N E3X-N Indicates models that allow free cutting. Models without this mark do not allow free cutting. High-precision Screen Sensors Model Appearance E32-T16P Slit width Not used 0.5 mm wide 1.0 mm wide E32-T16 Not used Sensing distance (NT: E3X-NTjj; NM: E3X-NMjj NV: E3X-NV21; NVG: E3X-NVG21) Min. sensing object*1 (horizontal beam) NT: 480 mm NM: 400 mm NT: 1.3-mm dia. (0.6-mm dia.) NM: 1.0-mm dia. (0.7-mm dia.) NV: NV: 480 mm 1.3-mm dia. (0.6-mm dia.) NT: 80 mm NM: 65 mm NT: 1.3-mm dia. (0.4-mm dia.) NM: 1.0-mm dia. (0.4-mm dia.) NV: NV: 80 mm 1.3-mm dia. (0.4-mm dia.) NT: 160 mm NM: 130 mm NT: 1.3-mm dia. (0.5-mm dia.) NM: 1.0-mm dia. (0.6-mm dia.) NV: NV: 160 mm NT: 1,070 mm*2 NM: 1,000 mm*2 1.3-mm dia. (0.5-mm dia.) NT: 5.0-mm dia. (0.15-mm dia.) NM: 5.0-mm dia. (0.2-mm dia.) NV: 1,070 mm*2 NV: 5.0-mm dia. (0.15-mm dia.) NVG: 150 mm*2 NVG: 7.0-mm dia. (1.0-mm dia.) 0.5 mm wide NT: 480 mm NM: 450 mm NT: 5.0-mm dia. (0.1-mm dia.) NM: 5.0-mm dia. (0.2-mm dia.) 1.0 mm wide NT: 850 mm NM: 800 mm NT: 5.0-mm dia. (0.1-mm dia.) NM: 5.0-mm dia. (0.3-mm dia.) *1 Values at the sensing distance of 100 mm. Values not in parentheses represent sensing objects within the 11-mm sensing area except values for the T16. The values for the T16 represent sensing objects within the 10-mm sensing area. The diameters of sensing objects in the above table represent sensing object sizes, on condition that the objects are not moving. *2 Visual field NT/NV: 2 x 10 mm , NM: 10 mm width, NVG: 2 x 10 mm. Sensing Direction Sensing object Mounting Bracket for E32-T16P (Option) Sold in pairs. Model E39-L94 6 Applicable fibers E32-T16P Appearance See page 36. E3X-N E3X-N Specifications Ratings/Characteristics Amplifier Unit Item General-purpose E3X-NT11 E3X-NT41 PNP Multi-function E3X-NT21 NPN E3X-NT51 PNP Four-channel E3X-NM11 E3X-NM41 NPN PNP Waterproof red light source E3X-NV21 NPN Waterproof green light source E3X-NVG21 NPN/PNP output NPN NPN Indicator Orange LED: Lit during output operation Green LED: Lit with stable light reception or no light Circuit protection Reverse polarity, output short-circuit, mutual interference prevention Ambient temperature Operating:–25°C to 55°C (with no icing) Storage: –40°C to 70°C (with no icing) Ambient humidity Operating: 35% to 85% (with no condensation) Ambient illumination Sunlight: 10,000 ȏx max.; Incandescent lamp: 3,000 ȏx max. Insulation resistance 20 MΩ min. (at 500 VDC) Dielectric strength 1,000 VAC, 50/60 Hz for 1 min Vibration resistance 10 to 55 Hz, 1.5-mm double amplitude or 300 m/s2 (approx. 30G) for 2 hrs each in X, Y, and Z directions Shock resistance 500 m/s2 (approx. 50G) for 3 times each in X, Y, and Z directions Degree of protection IEC60529 IP50 (with protective cover in place) IEC60529 IP66 (with protective cover in place) Material Case: PBT; Cover: Polycarbonate Case: Heat-resisting ABS; Cover: Polycarbonate Cord length Prewired (2 m) Connection method Vcc: Brown 0 V: Blue Control output: Black Remote teaching input: Pink (E3X-NT21/-NT51 only) Vcc: Brown 0 V: Blue Control output 1: Black Control output 2: White Control output 3: Grey Control output 4: Orange Remote teaching input: Pink Vcc: Brown 0 V: Blue Control output : Black Remote teaching input: Pink Weight (with 2-m cord) Approx. 100 g Approx. 200 g Approx. 100 g Fiber Unit Common Ambient storage temperature Heat-resistive fiber: –40°C to 110°C (with no icing) Other fibers: –40°C to 70°C (with no icing) Ambient storage humidity Operating: 35% to 95% (with no condensation) Vibration resistance 10 to 55 Hz, 1.5-mm double amplitude for 2 hrs each in X, Y, and Z directions Shock resistance 500 m/s2 (approx. 50G) for 3 times each in X, Y, and Z directions 7 E3X-N E3X-N Through-beam (Separate) Sensors Model E32-T11L Ambient temperature O e a g –40°C Operating: 0 C to o 70°C 0C ( ith no iicing) (with i ) Ambient humidity O e a g 35% to Operating: o 85% Permissible bending radius Material 25 mm min. Black polyethylene 4 mm min. Vinyl chloride O e a g –30°C Operating: 30 C to o 70°C 0C ( ith no iicing) (with i ) 40 0 mm min. Teflon-covered* e o co e ed 1 bl k polyethylene black l th l E32-M21 Operating: –40°C to 70°C (with no icing) 25 mm min. Black polyethylene E32-T51 Operating: O e a g –40°C 0 C to o ith no iicing) i ) 150°C*2 ((with 35 mm min. Fluoride uo de resin es Operating: –40°C to 300°C*3 (with no icing) 25 mm min. SUS E32-T12L Degree of protection IEC60529 IP67 E32-T21L E32-T22L E32-TC200 E32-TC200B E32-TC200B4 E32-T22 E32-TC200E E32-TC200F E32-TC200F4 E32-TC200A E32-T11 E32-T21 E32-T14L E32-T24 E32-T14 E32-T17L E32-T12F E32-T14F E32-T54 E32-T61 *1 Teflon is a registered trademark of the Dupont Company and the Mitsui Dupont Chemical Company for their fluoride resin. *2 When used continuously between –40°C and 130°C. *3 The resistive temperature varies with the part of the Fiber Unit. For details, refer to Dimensions. 8 E3X-N E3X-N Reflective Sensors Model Differential travel 20% of max. of sensing g di t distance E32-D11L E32-D12 Ambient temperature Operating: –40°C to 70°C ((with no icing) g) Ambient humidity Operating: 35% to 85% Permissible bending radius Material 25 mm min. Black y y polyethylene 4 mm min. Vinyl chloride Degree of protection IEC60529 IP67 E32-D21L E32-D22L E32-DC200 E32-DC200B E32-DC200B4 E32-DC200E E32-DC200F E32-DC200F4 E32-D11 E32-D21 E32-DC9G E32-DC9G4 E32-D33 E32-CC200 E32-D32 E32-D32L E32-D14L E32-D24 E32-D12F Operating: –30°C to 70°C (with no icing) 40 mm min. Teflon-covered black polyethylene*1 E32-D51 Operating: –40°C to 150°C (with no icing)*2 35 mm min. Fluoride resin E32-D61 Operating: –40°C to 300°C (with no icing)*3 25 mm min. SUS E32-D73 Operating: –40°C to 400°C (with no icing)*3 E32-R21 with E39-R3 Operating: –40°C to 70°C (with no icing) E32-R16 with E39-R1 Operating: –25°C to 55°C (with no icing) IEC60529 IP66 O e a g –40°C Operating: 0 C to o 70°C (with ( ith no icing) i i ) IEC60529 C605 9 IP50 E32-L25*4 E32-L25A*4 E32-L25L*4 5% o of max. a of o sensing i distance E32-L24L*4 Note: Black polyethylene Operating: –40°C to 105°C*5 10 mm min. (average at 10% decrease of sensing distance) Reinforced polyethylene The Sensor may be set to the light-ON state if the sensitivity (teaching) is set to maximum, in which case, use the Sensor at a sensitivity setting other than the maximum level. *1 Teflon is a registered trademark of the Dupont Company and the Mitsui Dupont Chemical Company for their fluoride resin. *2 When used continuously between –40°C and 130°C. *3 The resistive temperature varies with the part of the Fiber Unit. For details, refer to Dimensions. *4 Beam size: 2-mm dia. *5 For continuous operation, use the products within the temperature ranging from –40_C to 90_C. Fine Through-beam Sensors Model Beam size E32-T22S 13 mm dia. (at a distance of 200 mm) E32-T24S E32-T84S Differenci al travel Horizontal positioning accuracy --- --- Ambient temperature Operating: –40°C 70°C 40 C to 70 C (with no icing) Operating: –40°C to 200°C (with no icing) Ambient humidity Permissible bending radius Material Operating: 35% to 85% 10 mm min.* Reinforced laminated vinyl chloride 25 mm min. SUS Degree of protection IEC60529 IP67 9 E3X-N E3X-N * Average at 10% decrease of sensing distance Slot Sensor Model E32-G14 Ambient temperature Ambient humidity Operating: –40°C to 70°C (with no icing) Operating: 35% to 85% Permissible bending radius 25 mm min. Material Degree of protection Fiber sheath: Black polyethylene IEC60529 IP67 High-precision Screen Fiber Unit Model E32-T16P Ambient temperature Operating: –40°C to 70°C (with no icing) Ambient humidity Permissible bending radius*1 Operating: 35% to 85% 10 mm min. Sensing head: Heat-resistive ABS Fiber sheath: Vinyl chloride IEC60529 IP50 25 mm min. Sensing head: Heat-resistive ABS Sensing surface: PMMA Fiber sheath: Black polyethylene IEC60529 IP67 E32-T16 Material Degree of protection *1 Average at 10% decrease of sensing distance *2 Attachments: two slits each (0.5 mm and 1.0 mm wide) Attachments Name Applications Model Small Spot Lens Unit Long Distance Lens Unit Detection over 0.5-mm-dia. spots Increasing sensing distance E39-F3A E39-F1 Reflective Appearance Through-beam (separate) Applicable fibers E32-D32 E32-T11L E32-TC200 E32-T61 E32-T11 With E3X NTjj E3X-NTjj Sensing distance 22 mm*1 1,280 mm 2,100 mm 1,400 mm Standard object White paper 2.5 x 2.5 cm Opaque objects: 4-mm dia. min. With E3X NMjj E3X-NMjj Sensing distance 20 mm*1 1,200 mm Standard object White paper 2.5 x 2.5 cm Opaque objects: 4-mm dia. min. With E3X NV21 E3X-NV21 Sensing distance 22 mm*1 1,280 mm Standard object White paper 2.5 x 2.5 cm Opaque objects: 4-mm dia. min. With E3X NVG21 E3X-NVG21 Sensing distance --- 120 mm Standard object --- Opaque objects: 4-mm dia. min. Directivity --- 5° to 40° Differential travel 20% of sensing distance --- Ambient temperature Operating: –40°C to 70°C E32-T61: –40°C to 200°C (Do not exceed the operating temperature of the fiber. ) Material Shaft Aluminum Brass Lens Optical glass Base --- Reflector --- *1 When inserting 15 mm. *2 130 mm for the E32-T61. 10 2,000 mm 2,100 mm 190 mm*2 1,300 mm 1,400 mm 120 mm E3X-N E3X-N Name Side-view Unit Changing the sensing direction at °90 Applications Model E39-F2 Appearance Through-beam (separate) Applicable fibers E32-T11L E32-TC200 E32-T61/11 265 mm 210 mm With Sensing distance 265 mm E3X-NTjj Standard object Opaque objects: 3-mm dia. min. With Sensing distance 250 mm E3X-NMjj Standard object Opaque objects: 3-mm dia. min. With Sensing distance 265 mm E3X-NV21 Standard object Opaque objects: 3-mm dia. min. With Sensing distance 10 mm 19 mm E3X-NVG21 Standard object Opaque objects: 4-mm dia. min. Opaque objects: 3-mm dia. min. Directivity 20° to 60° Differential travel --- 250 mm 200 mm 265 mm 210 mm 10 mm Ambient temperature E32-T61: –40°C to 200°C (Do not exceed the operating temperature of the fiber.) Material Shaft Brass Lens Optical glass Base --- Reflector --- Name Lens-equipped Reflective Unit Applications Converting through-beam sensors to reflective sensors Model E39-F3 Appearance Reflective Applicable fibers E32-T11L E32-TC200 With Sensing distance White paper 55 to 160 mm*1 85 to 110 mm*1 E3X-NTjj (standard object) Black paper --- 16 to 18 mm*1 mm*1 85 to 100 E32-T61 17 to 19 mm*1 mm*1 With Sensing distance White paper 55 to 150 E3X-NMjj (standard object) Black paper --- 15 to 17 mm*1 With Sensing distance White paper 55 to 160 mm*1 85 to 110 mm*1 E3X-NV21 (standard object) Black paper --- 16 to 18 mm*1 With Sensing distance White paper --- 10 to 15 mm (2.5 x 2.5 cm) E3X-NVG21 (standard object) Black paper --- --- 16 to 18 mm*1 16 to 18 mm*1 --- Directivity --- Differential travel 20% of sensing distance Ambient temperature E32-T61: –40°C to 200°C (Do not exceed the operating temperature of the fiber.) Material Shaft Brass Lens Optical glass Base Aluminum Reflector --- 11 E3X-N E3X-N Name Lens-equipped Reflective Unit Side-view Reflective Unit Applications Converting through-beam sensors to reflective sensors Converting through-beam to reflective sensor Model E39-F3 E39-F5 Appearance Reflective Reflective Applicable fibers E32-T11 E32-TC200A With Sensing distance White paper 90 to 110 mm*1 5 to 32 mm E3X-NTjj (standard object) Black paper --- 6 to 10 mm mm*1 With Sensing distance White paper 90 to 100 E3X-NMjj (standard object) Black paper --- 5 to 30 mm 6 to 9 mm With Sensing distance White paper 90 to 110 mm*1 5 to 32 mm E3X-NV21 (standard object) Black paper --- 6 to 10 mm With Sensing distance White paper --- --- E3X-NVG21 (standard object) Black paper --- --- Directivity --- Differential travel 20% of sensing distance Ambient temperature E32-T61: –40°C to 200°C (Do not exceed the operating temperature of the fiber.) Operating: –40°C to 70°C Material Shaft Brass --- Lens Optical glass --- Base Aluminum Brass Reflector --- Stainless *1 These values are possible when the angle of the E39-F3 is smallest (parallel). Beam Spot Characteristics E39-F3A with E32-D32 ȏ Focal length d (mm) Fiber E32-D32 d: Spot diameter (mm) d ȏ: Insertion d: Focal distance 1.0 0.8 0.5 Insertion distance ȏ (mm) 12 E3X-N E3X-N Spiral Tubes Model E39-F32A5 E39-F32A E39-F32B5 E39-F32B E39-F32C5 E39-F32C E39-F32D5 E39-F32D L Appearance End cap 1,000 mm 500 mm Tube 1,000 mm Head connector Length (L) 500 mm Applicable fiber E32-DC200E E32-DC200F(4) E32-D21 Ambient temperature Operating: –40°C to 150°C (Do not exceed the operating temperature of the fiber) Ambient humidity Operating: 35% to 85% Permissible bending radius 30 mm min. Tensile strength Between head connector and end cap with tube: 1.5 N S m (15 kgf S cm) Tube: 2 N S m (20 kgf S cm) Compression load Tube: 29.4 N (3 kg) E32-TC200E E32-TC200F(4) E32-T21 E32-T21L 500 mm 1,000 mm E32-TC200 E32-TC200B(4) E32-T11 E32-T51 E32-T11L 500 mm 1,000 mm E32-DC200 E32-DC200B(4) E32-CC200 E32-D11 E32-D51 E32-D11L Accessories Name Fiber Cutter Fine-fiber Attachment Fiber Connector Sleeve Bender Model E39-F4 E39-F9 E39-F10 E39-F11 12.8 Appearance 25 24.5 3 dia. 45 8 26 3.6 dia. 3.8 dia. Features Used to cut fibers to desired lengths Used when inserting fine fibers into the amp Used to connect fibers for extension Used to bend fiber sleeves Applicable fiber All models equipped with fibers that can be trimmed. E32-DC200E, -TC200E E32-DC200F(4), -TC200F(4) E32-D21, -D21L, -D22L E32-T21, -T21L, -T22L E32-D32, -T22 E32-D24. -T24 E32-D33 E32-R21, E32-D21R E32-DC200, -TC200 E32-DC200B(4), -TC200B(4) E32-TC200A E32-T14, -G14 E32-D11L, -T11L, -T12L E32-D14L, -T14L E32-T17L E32-TC200B(4) E32-DC200F(4), -TC200F(4) E32-DC9G(4) Provided with Fiber Units Name Sold Separately Protection cover Model E39-G10 (see note) E39-G9 Appearance Application Replacement part: Order when the Protection Cover included with the Amplifier is damaged or lost. Applicable Amplifier E3X-NT Note: E3X-NM Cannot be mounted on the push type as shown below. 33 59 10 13 E3X-N E3X-N Engineering Data Excess Gain Ratio (Typical) with Standard Sensing Object at Max. Sensitivity The characteristics of the E3X-NV are the same as for the E3X-NT. E3X-NT E3X-NM E32-T11L with E39-F1 Sensing distance E3X-NT Sensing distance E3X-NT E3X-NM E3X-NM Sensing distance (mm) Sensing distance (mm) Sensing distance (m) E32-T21L E32-T11L with E39-F3 Sensing distance E3X-NT Excess gain ratio (When the angle of the E39-F3 is at its minimum (parallel).) Sensing object Sensing distance E3X-NT Excess gain ratio E32-T11L with E39-F2 Excess gain ratio Excess gain ratio Sensing distance Excess gain ratio E32-T11L Excess gain ratio E32-TC200 Sensing distance E3X-NT E3X-NM E3X-NM E3XNM Sensing distance E3X-NT Excess gain ratio Excess gain ratio E32-T14L E32-T17L Sensing distance E3X-NT Sensing distance (mm) Excess gain ratio Sensing distance (mm) Sensing distance (mm) E3X-NM E32-T16 Sensing distance E3X-NT E3X-NM E3X-NM Sensing distance (mm) E3X-NT Sensing object E3X-NM E32-D11L E32-D21L Sensing distance E3X-NT Sensing object E3X-NM Excess gain ratio Sensing distance Excess gain ratio Excess gain ratio E32-DC200/E32-CC200 Sensing distance (m) Sensing distance (m) Sensing distance Sensing object E3X-NT E3X-NM Sensing distance (mm) 14 Sensing distance (mm) Sensing distance (mm) E3X-N E3X-N E32-T16P Excess gain ratio E3X-NM E32-T24S Sensing distance Excess gain ratio Excess gain ratio E32-T22S Sensing distance E3X-NT Sensing distance E3X-NT E3X-NM E3X-NM E3X-NT Sensing distance (cm) Sensing distance (mm) Sensing distance (mm) Excess gain ratio E32-T14F Excess gain ratio E32-T54 Sensing distance Sensing distance E3X-NT E3X-NT E3X-NM E3X-NM Sensing distance (mm) Sensing distance (mm) Operating Range (Typical) With standard sensing object at max. sensitivity. The characteristics of the E3X-NV are the same as for the E3X-NT. Y Set distance X (mm) E3X-NT E3X-NM 50 100 200 150 E3X-NT 250 300 350 Set distance X (mm) E3X-NM E32-D21L Set distance X (mm) E3X-NM E3X-NT E32-DC200E Operating position Y (mm) Y X Operating position Y (mm) Operating position Y (mm) E32-D12 X Y 10 20 30 50 40 60 70 Set distance X (mm) E3X-NT E3X-NM E32-D11 Set distance X (mm) E3X-NM E3X-NT Operating position Y (mm) Operating position Y (mm) X Operating position Y (mm) E32-D11L E32-DC200 Set distance X (mm) E3X-NM E3X-NT 15 E3X-N E3X-N E32-D21 Set distance X (mm) E3X-NM E3X-NT 80 160 200 Set distance X (mm) 120 E3X-NT E3X-NM E3X-NM E3X-NT Operating position Y (mm) Set distance X (mm) E3X-NT Set distance X (mm) E3X-NM E3X-NT E32-D51 Set distance X (mm) E3X-NM E3X-NT Operating position Y (mm) Operating position Y (mm) Operating position Y (mm) Set distance X (mm) E3X-NM E32-D14L Set distance X (mm) E3X-NM E3X-NT E32-D73 Set distance X (mm) E3X-NM E3X-NT Operating position Y Sensing object Operating position Y (mm) 40 E32-D61 Operating position Y (mm) E3X-NT Operating position Y (mm) Y E32-D24 Operating position Y (mm) E3X-NM Set distance X (mm) E3X-NM E3X-NT E32-L24L Sensing object Set distance X Set distance X Set distance X (mm) Operating position Y (mm) Operating position Y (mm) X E32-D32L 16 Set distance X (mm) E32-D32 E32-CC200 E32-L25 Operating position Y (mm) Operating position Y (mm) E32-D33 Set distance X (mm) E3X-N E3X-N Parallel Operating Range (Typical) At max. sensitivity. X Y 100 200 300 400 500 600 700 Set distance X (mm) E3X-NT E3X-NM E32-TC200+E39-F2 100 200 300 400 500 600 Set distance X (mm) E3X-NT E3X-NM Parallel operating range Y (mm Parallel operating range Y (mm) Parallel operating range Y (mm) E32-TC200 E32-TC200+E39-F1 Parallel operating range Y (mm) The characteristics of the E3X-NV are the same as for the E3X-NT. E32-T11L 1.5 2 2.5 3 Set distance X (m) E3X-NT E3X-NM Parallel operating range Y (mm) E32-T21L X Y 50 100 150 200 250 300 350 400 Set distance X (mm) E3X-NT E3X-NM Parallel operating range Y (mm) Y 0.5 E32-T11 3000 4000 5000 Set distance X (mm) E3X-NM E3X-NT X Y 200 400 600 800 Y 1,000 1,200 Set distance X (mm) E3X-NT E3X-NM X Y 100 200 300 400 60 800 Set distance X (mm) E3X-NT E3X-NM E32-TC200E 20 40 60 80 100 120 140 160 Set distance X (mm) E3X-NT E3X-NM E32-T11+E39-F1 100 200 300 400 500 600 Set distance X (mm) E3X-NT E3X-NM arallel operating range Y (mm) Parallel operating range Y (mm) 2000 E32-T11L with E39-F2 X Parallel operating range Y (mm) Parallel operating range Y (cm) E32-T11L with E39-F1 1000 500 1000 1500 2000 2500 3000 Set distance X (mm) E3X-NT E3X-NM 17 E3X-N E3X-N Parallel operating range Y (mm) 100 200 300 400 500 Set distance X (mm) E3X-NT E3X-NM Parallel operating range Y (mm) E32-T21 E32-T11+E39-F2 Y 50 100 150 200 250 300 Set distance X (mm) E3X-NT E3X-NM 80 100 120 140 160 Set distance X (mm) E3X-NM 500 1000 1500 2000 2500 Set distance X (mm) E3X-NT E3X-NM 40 60 80 100 Set distance X (mm) E3X-NT E3X-NM Parallel operating range Y (cm) X Y 2 4 6 8 10 12 14 16 Set distance X (m) E3X-NT E3X-NM E32-M21 X Y 0.5 1.5 2 2.5 3 Set distance X (m) E3X-NT E3X-NM 100 200 300 400 500 600 700 800 Set distance X (mm) E3X-NT E3X-NM E32-T61 100 200 300 400 500 600 700 800 Set distance X (mm) E3X-NT E3X-NM Parallel operating range Y (mm) E32-T51 Parallel operating range Y (cm) Parallel operating range Y (mm) 20 Parallel operating range Y (cm) E32-T17L E32-T12F Parallel operating range Y (mm) 60 E32-T14 X E32-T24 18 40 E3X-NT Parallel operating range Y (mm) Parallel operating range Y (mm) E32-T14L 20 100 200 300 400 500 Set distance X (mm) E3X-NT E3X-NM E3X-N E3X-N E32-R16+E39-R1 200 300 400 500 600 700 800 Set distance X (mm) E3X-NT E3X-NM 400 800 1200 1600 2000 Set distance X (mm) E3X-NT E3X-NM E32-T16P Parallel operating range Y (mm) 2000 3000 4000 5000 Set distance X (mm) E3X-NT E3X-NM 400 600 800 1000 1200 1400 1600 Set distance X (mm) E3X-NT E3X-NM Parallel operating range Y (mm) Y 200 1000 E32-T24S X Parallel operating range Y (mm) Parallel operating range Y (mm) E32-T22S X Y 300 600 900 1200 1500 Set distance X (mm) E3X-NT E3X-NM E32-T16P 200 400 600 800 1000 1200 1400 1600 Set distance X (mm) E3X-NT E3X-NM E32-T14F E32-T54 Parallel operating range Y (mm) Operating position Y (mm) 100 20 40 60 80 100 120 140 160 Set distance X (mm) E3X-NT E3X-NM Parallel operating range Y (mm) Operating position Y (mm) E32-R21+E39-R3 200 400 600 800 Set distance X (mm) E3X-NM E3X-NT 19 E3X-N E3X-N Sensing Objects vs. Operating Range (Typical) E32-DC200 with E3X-NT11 E32-DC200 with E3X-NM11 Operating position Y (mm) Operating position Y (mm) The characteristics of the E3X-NV are the same as for the E3X-NT. 0.03-mm dia.0.1-mm dia. Set distance X (mm) 0.3-mm dia. 0.5-mm dia. 0.1-mm dia. Set distance X 0.3-mm dia. (mm) 0.5-mm dia. 0.1-mm dia. 0.3-mm dia. 0.03-mm dia. Set distance 0.5-mm X dia. (mm) Operating position Y (mm) Operating position Y (mm) 0.5-mm dia. Set distance X (mm) 0.03-mm dia. 0.1-mm dia. 0.5-mm dia. 0.3-mm dia. Set distance X (mm) E32-D11L with E3X-NM11 E32-D33 with E3X-NT11 Operating position Y (mm) Operating position Y (mm) 0.03-mm dia. E32-D11L with E3X-NT11 20 0.3-mm dia. 0.1-mm dia. E32-D22L with E3X-NM11 0.03-mm dia. 0.3-mm dia. 0.1-mm dia. Set distance X (mm) dia. 0.5-mm E32-D33 with E3X-NM11 0.03-mm dia. 0.1-mm dia. Set distance X (mm) 0.3-mm dia. 0.5-mm dia. Operating position Y (mm) Operating position Y (mm) E32-D22L with E3X-NT11 0.03-mm dia. 0.03-mm dia. 0.1-mm dia. 0.3-mm dia. Set distance X (mm) 0.5-mm dia. E3X-N E3X-N E32-CC200 with E3X-NM11 Operating position Y (mm) Operating position Y (mm) E32-CC200 with E3X-NT11 0.03-mm dia. 0.1-mm dia. 0.3-mm dia. Set distance X (mm) 0.5-mm dia. 0.03-mm dia. 0.1-mm dia. 0.5-mm dia. Set distance X (mm) 0.3-mm dia. E32-D32 with E3X-NM11 Operating position Y (mm) Operating position Y (mm) E32-D32 with E3X-NT11 0.03-mm dia. 0.1-mm dia. 0.5-mm dia. Set distance X (mm) 0.3-mm dia. 0.1-mm dia. 0.3-mm dia. 0.5-mm dia. 0.03-mm dia. Set distance X (mm) Excess Gain vs. Sensing Distance (E3X-NVG) Sensing distance Sensing object Excess gain ratio E32-T11L, -T12L Excess gain ratio E32-D11L Sensing distance E3X-NVG E3X-NVG Operating level Operating level Sensing distance (mm) Sensing distance (mm) Parallel Operating Range (E3X-NVG) E32-D11L Set distance X (mm) E3X-NVG Operating position Y (mm) Parallel operating range Y (mm) E32-T11L, -T12L Set distance X (mm) E3X-NVG 21 E3X-N E3X-N Nomenclature E3X-NT11 (NPN) E3X-NT21 (NPN) E3X-NT41 (PNP) E3X-NT51 (PNP) Operation indicator (orange) E3X-NV21 (NPN) E3X-NVG21 (NPN) E3X-NM11 (NPN) E3X-NM41 (PNP) Operation indicator (orange) Stability indicator (green) Stability indicator (green) Four operation indicators (orange) Teaching indicator (red/green) Four stability indicators (green) Teaching indicator (red/green) Teaching button Channel selector Teaching button Mode selector Teaching button Mode selector Teaching indicator (red/green) Timer switch (see note) Timer switch (see note) Operation mode selector Operation mode selector Operation mode selectors Mode selector Note: The E3X-NT11 or E3X-NT41 do not have a timer function. Operation Output Circuits E3X-NT11 E3X-NT21/E3X-NV21/E3X-NVG21 Teaching indicator (red/green) Operation indicator (orange) Black Stability indicator (green) Teaching indicator (red/green) Brown Load Control output Main circuit 12 to 24 VDC Operation indicator (orange) Black Stability indicator (green) Operation indicator (orange) Teaching indicator (red/green) Pink Brown Black White Stability indicator (green) Main circuit Grey Orange Load Load Control output Load Load Control output Control output Control output Blue Pink 22 12 to 24 VDC Blue E3X-NM11 x4 Load Control output Main circuit Blue x4 Brown Remote teaching input 12 to 24 VDC Remote teaching input E3X-N E3X-N E3X-NT41 E3X-NT51 Teaching indicator (red/green) Operation indicator (orange) Stability indicator (green) Teaching indicator (red/green) Brown Control output Main circuit Black 12 to 24 VDC Operation indicator (orange) Pink Remote teaching input Brown Stability indicator (green) Control output Main circuit Black Load 12 to 24 VDC Load Blue Blue E3X-NM41 Teaching indicator (red/green) x4 Pink Remote teaching input x4 Operation indicator (orange) Stability indicator (green) Brown Control output Black Main circuit Control output White Grey Orange Control output Load Control output Load 12 to 24 VDC Load Load Blue Channel no. Control output wire color 1 Black 2 White 3 4 Grey Orange With/Without-object Teaching, No-object Teaching, Maximum Sensitivity Setting Refer to the following table to select the most suitable sensitivity setting method. Sensitivity setting method Typical application No-object teaching With/Without-object teaching Detection of the existence of objects that interrupt light perfectly Maximum sensitivity setting If teaching is impossible by stopping the movement of sensing objects Detection of a slight difference in reflection Detection of objects with no background objects To detect bright or dark objects by teaching only with background objects Color discrimination Background objects with unstable reflection Detection of object surface irregularities Elimination of background object influence Note: 1. None of the four channels has any output when the E3X-NM (four channels) is in teaching mode (i.e., all the four channels will be in teaching mode). 2. If the set distance is very short (i.e., 0 to 12 mm for the E32-TC200 and 0 to 4 mm for the E32-DC200), no-object teaching is not possible due to excessive light, in which case, perform with/without-object teaching. 3. In principle, use the E3X-NM (four channels) for the close connection of a maximum of four Fiber Units. When closely connecting two to three Fiber Units to more than one E3X-NT (one channel), perform with/without-object teaching, in which case teaching must be performed on a single E3X-NT at a time. Therefore, turn on only the E3X-NT on which teaching is performed. If all the E3X-NTs are turned on, interrupt the emitters of the Fiber Units on which teaching is not performed. 23 E3X-N E3X-N No-object Teaching with an Initial Operating Level Compensation Function With Through-beam (Dark-ON) Fiber Unit 1. Teaching button is pressed once. 2. The first sensing object is in the sensing area. Large Large 10 % Light 10 % The light value decreases and the Photoelectric Sensor works in through-beam operation. Change to RUN mode Operating level Light level with no object Light 10% OFF Operating level ON Set the operating level to ±10% of the light level. Small Operating level Small 0 0 3. Sensing objects continue to pass through the sensing area. Large Considering a drop in light value due to optical axis divergence or dust on the lenses, sample the light of the first to fifth objects. Then reset the operating level to the median value between the lowest light with a sensing object and the light without sensing object. (1) Light (2) (3) (4) (5) (6) Operating level Resetting Small 0 With Reflective (Light-ON) Fiber Unit 1. Teaching button is pressed once. 2. The first sensing object is in the sensing area. Large Large ON Operating level 10% Light 10% Light level of background Change to RUN mode OFF 10% Light Operating level The light level increases and the Photoelectric Sensor works in reflective operation. Set the operating level to ±10% of the light level. Small Operating level Small 0 0 3. Sensing objects continue to pass through the sensing area. Large Resetting Operating level Light (1) (2) (3) (4) (5) Note: If the light value up to the fifth object is at least twice as large as the operating level, the initial set operating level (10%) will be maintained. (6) Considering the sensing object positions and the color differences of sensing objects, sample the light of the first to fifth objects. Then reset the operating level to the median value between the lowest light with a sensing object and the light without a sensing object. Small 0 Note: 1. After no-object teaching, when the E3X-Nj is turned off and on, the operation level will be set to the +10% of the initial light level (refer to the above (1)) in reflective operation and –10% of the initial light level in through-beam operation and stand by. 2. After performing no-object teaching and changing to RUN mode, until the first sensing object is in the sensing area, the control output will be prohibited (OFF). The control output will be determined when the first sensing object is detected. 3. The initial operating level compensation function will operate after teaching and/or after the E3X-Nj is turned on. 4. During no-object teaching, after the E3X-Nj is in RUN mode, each channel requires approximately 60 ms to determine the operating level from the time the first sensing object is in the sensing area. Therefore, when using the E3X-NM (four channels), set an interval of 60 ms minimum for each channel if sensing objects are forwarded in sequence to the sensing area of each channel. After the operating level is determined, the E3X-NM will operate with a normal response speed of 500 µs. 24 E3X-N E3X-N Sensitivity Adjustment Combination of the E3X-NT/E3X-NM and Fine Through-beam Fiber Units (E32-T22S/T24S/T84S) No-object Teaching Press the teaching button once with no wafer in the sensing area. With/Without-object Teaching Press the teaching button once with no wafer in the sensing area. Wafer Wafer Note: If detection is not stable after no-object teaching, perform with/without-object teaching. Press the teaching button once again with a wafer in the sensing area. Wafer Maximum Sensitivity Setting Note: The sensitivity of the E3X-NT and E3X-NM are set to maximum before shipping. When resetting the sensitivity of the E3X-NT or E3XNM to maximum after no-object teaching or with/without-object teaching, follow the steps described below. Procedure Operation E3X-NT 1 Locate the sensor head within the rated sensing range with the E3X-Nj. 2 Set the mode selector to TEACH. TEACH RUN 3 The super-flashing function of the E3X-Nj will be activated. Therefore, adjust the optical axes so that the tip of the emitting fiber will be lit. If the optical axes are divergent, the tip of the emitting fiber will flash and the built-in buzzer of the E3X-Nj will beep. 4 Press the teaching button for three seconds minimum with or without a sensing object. In the case of the E3X-NM, select a channel with the channel selector, at which time the stability indicator for the selected channel will flash. E3X-NM TEACH TIMER SET RUN --- TEACH TEACH The teaching indicator (red) turns green. The built-in buzzer beeps once when the color of the teaching indicator is red. The built-in buzzer beeps continuously when the color of the teaching indicator is green. Note: 5 The built-in buzzer will stop beeping when the teaching button is no longer being pressed. Set the mode selector to RUN to complete the sensitivity setting. TEACH The teaching indicator is OFF. Note: 6 When the sensitivity is set to maximum, the sensitivity will be automatically adjusted regardless of the set distances of the fibers or light. Select the logical output required with the operation mode selector. RUN L ON D ON TEACH TIMER SET RUN CH 1 L ON D ON 2 3 4 25 E3X-N E3X-N No-object Teaching Procedure Operation E3X-NT 1 Locate the sensor head within the rated sensing range with the E3X-Nj. 2 Set the mode selector to TEACH. TEACH RUN 3 The super-flashing function of the E3X-Nj will be activated. Therefore, adjust the optical axes so that the tip of the emitting fiber will be lit. If the optical axes are divergent, the tip of the emitting fiber will flash and the built-in buzzer of the E3X-Nj will beep. 4 Press the teaching button for 0.5 to 2.5 seconds without a sensing object. In the case the E3X-NM, select a channel with the channel selector and press the teaching button, at which time the stability indicator for the selected channel will flash. E3X-NM TEACH TIMER SET RUN --- TEACH TEACH The teaching indicator (red) is lit. The built-in buzzer beeps once. 5 6 Set the mode selector to RUN. No-object teaching will be set when the first sensing object passes through the sensing area. TEACH The teaching indicator (red) turns green (automatically turned off in one second). RUN Select the logical output required with the operation mode selector. L ON D ON Note: TEACH TIMER SET RUN CH 1 L ON D ON 2 3 4 1. To detect dark objects in front of bright backgrounds, set the operation mode selector to D. ON. 2. If the set distance is very short (i.e., 0 to 12 mm for the E32-TC200 and 0 to 4 mm for the E32-DC200), no-object teaching is not possible due to excessive light, in which case, perform with/without-object teaching. 3. If the teaching button is pressed for more than three seconds, the sensitivity of the E3X-Nj will be set to maximum, at which time the green indicator will be lit. 4. The E3X-Nj will be ready to detect objects in approximately one second after the mode selector is set to RUN. 26 E3X-N E3X-N With/Without-object Teaching Procedure Operation E3X-NT 1 Locate the sensor head within the rated sensing range with the E3X-Nj. 2 Set the mode selector to TEACH. 3 The super-flashing function of the E3X-Nj will be activated. Therefore, adjust the optical axes so that the tip of the emitting fiber will be lit. If the optical axes are divergent, the tip of the emitting fiber will flash and the built-in buzzer of the E3X-Nj will beep. 4 Locate a sensing object in the sensing area and press the teaching button once. In the case of the E3X-NM, select a channel with the channel selector and press the teaching button, at which time the stability indicator for the selected channel will flash. --TEACH RUN Through-beam Model Reflective Model E3X-NM TEACH TIMER SET RUN --- TEACH TEACH Reflective Model Mark Light is interrupted. Base The teaching indicator (red) is lit. The built-in buzzer beeps once. 5 Move the object and press the teaching button. Through-beam Model Reflective Model Reflective Model TEACH TEACH Mark Light is received. Base If teaching is OK: The teaching indicator (red) turns green. The built-in buzzer beeps once. If teaching is NG: The teaching indicator (red) starts flashing. The operation indicator also starts flashing. (E3X-NM) The built-in buzzer beeps 3 times. Change the position of the object and the sensing distance that have been set and repeat from the beginning. 6 Set the mode selector to RUN to complete the sensitivity setting. TEACH The teaching indicator (green) is OFF. RUN 7 Select the logical output required with the operation mode selector. L ON D ON Note: TEACH TIMER SET RUN CH 1 L ON D ON 2 3 4 1. Even if the E3X-Nj is turned off, the E3X-Nj will retain the sensitivity set at the time of teaching. 2. Channels (E3X-NM) are selected in the following order. When all the channels are selected, it is possible to set the sensitivity of the E3X-NM on all channels. 1 CH 2 CH 3 CH 4 CH ALL 27 E3X-N E3X-N Remote Teaching/Timer Set Function Remote Teaching Function In principle, the remote teaching function of the E3X-Nj should be used for initial teaching. Basically, the method of remote teaching is the same as that of sensitivity setting. In remote teaching, instead of pressing the teaching button, teaching is performed with a remote teaching input signal. 1. Set the mode selector to RUN. 2. The following signal conditions must be given as remote teaching input conditions. Brown +V Black Control output Pink Blue 0 V Power supply 1. In the case of the E3X-NM, teaching is performed on all the four channels of the E3X-NM. 2. If all four channels are not used (e.g., only three channels are used), with/without-object teaching will not be available. In which case, perform the usual with/without-object teaching on the channels that are used instead of performing remote teaching. 3. If remote teaching is not performed, cut the pink wire at the base or connect the pink wire to the +V terminal. 4. After remote teaching input setting is finished, the E3X-Nj will be ready to detect objects in approximately one second. ON OFF Remote teaching input With/Without-object teaching T2 T1 T1 H L T1: 0.5 to 2 s T2: 3 s min. T3 Maximum sensitivity setting H L T3: 5 s min. No-object teaching T4 T5 T4 H L T4: 0.5 to 2 s T5: 1.5 to 2 s Timer Set Function (E3X-NM) 1. Set the mode selector to TIMER SET. 2. Select a channel with the channel selector, at which time the stability indicator for the selected channel will flash. 3. The timer of the E3X-NM will be set by pressing the teaching button of the E3X-NM, at which time the operation indicator will be lit. When the teaching button is pressed again, the timer will be disabled and the operation indicator of the E3X-NM will be lit. To perform setting on other channels repeat procedures 2 and 3. 4. Set the mode selector to RUN. Note: Channels are selected in the following order. When all the channels are selected, it is possible to set the timer function on all channels. 1 CH 2 CH 3 CH 4 CH ALL 28 E3X-N E3X-N Optical Axis Adjustment (Super-flashing Function) Set the mode selector of the E3X-Nj to TEACH. The super flashing function of E3X-Nj will be activated. When the optical axes of the fiber heads are divergent and the light value decreases by approximately 10% of the maximum value, the tip of the emitting fiber will start flashing and the built-in buzzer will beep. At this time, if the optical axes are divergent, adjust the axes. The peak light value will be memorized by the E3X-Nj. Do not press the teaching button before or while adjusting the optical axes, otherwise, the super-flashing function will not operate. θ Fiber for light emission Fiber for light reception Light reception The peak of light reception 90% of the peak value Lit in this range. Angle of the head (θ) 0 Flashing Lit Flashing Special Fiber Units The following special accessories are available (order separately). Contact your OMRON representative for the details. Fiber Units with 90° Bend in Stainless Steel Tube Fiber Units with Special Length of Stainless Steel Tube Applicable Models E32-TC200B/TC200F/DC200F Fiber with different lengths of stainless steel tubes are available. Applicable Models E32-TC200F (tube with 0.9-mm dia.) E32-TC200B/DC200F (tube with 1.2-mm dia.) E32-DC200B (tube with 2.5-mm dia.) Appearance Stainless Steel Tube with a 90° Bend at the Tip Length Appearance ȏ1 R L ȏ1 (±1) Bending radius The length can be ordered in increments of 10 mm between 10 mm min. and 120 mm max. Tolerance: ±1.0 mm if L is 40 mm or less. and ±2.0 mm if L is more than 40 mm. (Note that standard Fiber Units have a 90-mm or 40-mm long stainless steel tube.) R 5.0 10.0 mm 15.0 mm R 7.5 12.5 mm 17.5 mm R 10.0 15.0 mm 20.0 mm R 12.5 17.5 mm 22.5 mm The length overall is 120 mm max. Note: If larger ȏ1 is required, use the E39-F11 Sleeve Bender. 29 E3X-N E3X-N Stainless Steel Tube with a 90° Bend at the Base Length ȏ2 R ȏ1 (±1) Bending radius R 5.0 5.0 mm 10.0 mm R 7.5 7.5 mm 17.5 mm R 10.0 10.0 mm 20.0 mm R 12.5 12.5 mm 22.5 mm The length overall is 120 mm max. Note: If larger ȏ2 is required, use the E39-F11 Sleeve Bender. Sensing Distance for Tubes with 90° Bends Model Amplifier Bending radius Standard E32-TC200B E32-TC200F E32-DC200F R5.0 R7.5 R10.0 R12.5 E3X-NT 290 mm 180 mm 235 mm 255 mm 290 mm E3X-NM 270 mm 170 mm 220 mm 240 mm 270 mm E3X-NT 70 mm 32 mm 70 mm 70 mm 70 mm E3X-NM 65 mm 30 mm 65 mm 65 mm 65 mm E3X-NT 22 mm 16 mm 22 mm 22 mm 22 mm E3X-NM 20 mm 15 mm 20 mm 20 mm 20 mm Fiber Unit with Longer Fiber Appearance Applicable Models E32-TC200/-DC200 E32-TC200B/-DC200B E32-TC200E/-DC200E E32-TC200F/-DC200F E32-TC200A ȏ The length can be ordered in increments of 1 m between 6 m min. and 20 m max. (2 m and 5 m fiber length types are standard for E32-TC200, E32-DC200.) Fiber Length vs. Sensing Distance Fiber length (m) 30 Reflective Fiber Unit (Based on the sensing distance using a fiber length of 2 m as 100%) Sensing distance (%) Sensing distance (%) Through-beam Fiber Unit (Based on the sensing distance using a fiber length of 2 m as 100%) Fiber length (m) E3X-N E3X-N Changes in the Rated Sensing Distance E32-DC200 with E3X-Njjj Sensing distance (mm) Sensing distance (mm) E32-TC200 with E3X-Njjj E3X-NT E3X-NT E3X-NM E3X-NM Fiber length (m) Fiber length (m) Dimensions Note: All units are in millimeters unless otherwise indicated. Amplifier E3X-NT11 E3X-NT21 E3X-NT41 E3X-NT51 Operation indicator Stability indicator (A) (see note 1) Note: The mounting bracket can be attached to this side. Two, 2.4 dia. Two, 3.2-dia. holes Note: The cord types are as follow: Cord: Polyvinyl chloride-covered cord E3X-NT11: 4-mm dia. (40/0.12 dia), 3 cores E3X-NT21: 4-mm dia. (40/0.08 dia.), 4 cores E3X-NT41: 4-mm dia. (40/0.12 dia.), 3 cores E3X-NT51: 4-mm dia. (40/0.08 dia.), 4 cores Standard length: 2 m Mounting bracket Vinyl insulated round cord (cord type: see note ) Standard length 2 m Two, mounting holes Weight: Approx. 100 g 31 E3X-N E3X-N E3X-NM11 E3X-NM41 Operation indicator Stability indicator (A) (see note) 7 10 8.3 7 Note: 10.8 21.4 32.2 The mounting bracket can be attached to this side. 3.5 6.2 59 Eight, 2.4 dia. 32.5 33 8 10.7 4.1 7 8.3 7 3.8 22.4 13 Cord: Polyvinyl chloride-covered cord 4-mm dia. (40/0.08 dia), 7 cores Standard length: 2 m 16 6.1 34.8 Two, 3.2-dia. holes Two, mounting holes Mounting bracket Weight: Approx. 200 g 1 E3X-N E3X-N E3X-NV E3X-NVG Operation indicator Stability indicator Teaching indicator Two, 2.4 dia. Cord: Polyvinyl chloride-covered cord 4-mm dia. (40/0.08 dia), 4 cores Standard length: 2 m Weight: Approx. 100 g 2 Mounting bracket Two, 3.2-dia Two, mounting holes E3X-N E3X-N Fiber Units Through-beam (Sold in Pairs) Indicates models that allow free cutting. Models without this mark do not allow free cutting. E32-T11L E32-T12L M2.6 x 1.4 dia. 0.45 3 3.2 7 Two hexagon clamping nuts (T = 2.4) Two toothed washers (for M4) Optical fiber, 2.2 dia. Sensing head (nickelplated brass) M4 x 0.7 1.4 dia. 2.4 dia. Sensing head (nickel-plated brass) 3 dia. 3 11 (14) 2,000 11 (14) E32-T21L Optical fiber, 2.2 dia. 2,000 E32-T22L Two hexagon clamping nuts Two toothed washers Sensing head M3 x 0.5 (nickel-plated brass) Optical fiber, 1 dia. 0.9 dia. Fiber attachment (E39-F9) 25 10 0.9 dia. 1.8 dia. Sensing head, 2 dia. (stainless) Heat-shrinkable tubing Optical fiber, 1 dia. Fiber attachment (E39-F9) 25 10 (2) (1.7) 2.5 17 22 1.8 11 2,000 12 2,000 5.5 E32-TC200 1.0 dia. E32-TC200B E32-TC200B4 Two hexagon clamping nuts Two toothed washers Sensing head M4 x 0.7 (nickel-plated brass) M2.6 x 0.45 1.0 dia. 1.2 dia max. Optical fiber, 2.2 dia. 3.2 7 Two hexagon clamping nuts Two toothed washers Sensing head M4 x 0.7 (nickel-plated brass) 2.4 3.2 7 11 90 (40) (see note) Note: Heat-shrinking tubing Sensing head SUS303 1.4 dia. 17 22 2 dia. Optical fiber, 1 dia. Fiber attachment (E39-F9) 25 10 2,000 Stainless tube (SUS304) 0.5 dia. 0.9 dia. min. Two hexagon clamping nuts Two toothed washers Sensing head M3 x 0.5 (nickel-plated brass) Optical fiber, 1 dia. 0.5 dia. Two hexagon clamping nuts Two toothed washers Sensing head M3 x 0.5 (nickel-plated brass) Optical fiber, 1 dia. 11 2,000 Fiber attachment (E39-F9) 25 10 1.8 11 90 (40) (see note) 5.5 The value in the parentheses is for the E32-TC200F4. 2,000 E32-T11 E32-TC200A Two hexagon clamping nuts Two toothed washers 2.6 dia. Sensing head M3 x 0.5 (nickel-plated brass) 1.8 (1.5) Fiber attachment (E39-F9) 25 10 1.8 5.5 Note: 2.5 5.5 2,000 The value in the parentheses is for the E32-TC200B4. 2.5 12 E32-TC200F E32-TC200F4 1.0 dia. Optical fiber, 2.2 dia. E32-TC200E E32-T22 0.5 dia. Stainless tube (SUS304) 7 3 dia. 14 Optical fiber, 2.2 dia. 2,000 Sensing head (nickel-plated Two hexagon clamping nuts Two toothed washers Sixteen, brass) M4 x 0.7 Protective tube Optical fiber, 2.2 dia. 0.265 dia. M2.6 x 0.45 3.3 2.4 (14) 15 2,000 3 E3X-N E3X-N E32-T21 Four, 0.25 dia. Sensing head (nickel-plated brass) M3 x 0.5 Two hexagon clamping nuts Two toothed washers Protective tube 11 5.5 2,000 E32-TC200C (75) Two hexagon clamping nuts Two toothed washers Sensing head M4x0.7 (nickelM2.6 x 0.45 plated brass) 1.0 dia. 10 Optical fiber, 1 dia. 15 1.8 2.5 Fiber attachment (E39-F9) 25 22 dia. Optical fiber, 2.2 dia. 2.4 11 90 E32-TC200D E32-TC200D4 Two hexagon clamping nuts Stainless Two toothed washers tube Sensing head M4 x 1.0 dia. (SUS304) 0.7 (nickel-plated 1.2 brass) dia. max. 2.4 3.2 7 11 90 (40) (see note) Optical fiber, 2.2 dia. 90 (75) 22 dia. Note: 400 2,000 (when straight) Heat-shrinking tubing Sensing head, 3 dia. (stainless) E32-T14L 400 2,000 (when straight) 3 The value in the parentheses is for the E32-TC200D4. Optical fiber, 2.2 dia. 45° 2.8 1.5 1 3 dia. 1.5 12 30 2,000 35 Sensing surface E32-T24 Sensing head 1 dia. SUS304 2 dia. 45° 1 0.5 1.5 15 1.4 dia. 15 Fiber attachment (E39-F9) 25 Protective tube Optical fiber, 1 dia. 10 12 35 2,000 E32-T17L E32-T14 Lens unit (PMMA) 4.4 dia. 8.2 Heat resistive ABS Nitrile rubber Sensing head (ABS) M14 x 1 10-mm dia. lens (PMMA) 7 Optical axis R3.5 10.5 8 Two, 3.2 dia. Optical fiber, 2.2 dia. Optical fiber, 2.2 dia. 7 19 2.5 Two hexagon clamping nuts 5 10±0.2 9.2 16 23 42 11.2 2,000 10,000 E32-T12F 4-mm dia. lens Sensing head, 5 dia. Fluoride resin 4 dia. Optical fiber, 2.2 dia. 20 2,000 4 100 E3X-N E3X-N E32-T14F Sensing head, 5 dia. Fluoride resin 4 dia. Optical fiber, 2.2 dia. Optical axis E32-T16 10.2 20 3.2 4 2 (R2) 0.5-mm Wide Silt Seal (Supplied with the Unit in Pairs) Mounting Holes 4 20 6 20 15.5 8.85 3 Sensing head (heat-resistive ABS) 8.4 4 2 (R) 2 (R) 1.2 0.5 4.5 Two, M3 11 2.3 15 23 5.5 3.2 Black 27 25 20 Lens (2 x 10) (PMMA) 6 dia. 1-mm Wide Silt Seal (Supplied with the Unit in Pairs) 6 58 1 43.2 4 Two, 3.2 dia. 2,000 Mounting bracket E39-L4 15 23 Black 33 Fiber 2.2 dia. E32-T16P Two, 3.2 dia., 6-dia. counter sinking 14.5 10.7 4 E32-T16P with E39-L94 (Sold Separately) Mounting 0.5-mm-wide Slit Seal (Supplied with the Unit in Pairs) 35 3.4 19 20 2 0.5 4 4.8 27 20 Sensing surface (2 x 11) (PMMA) 13.4 4 Two, M3 4 26.4 Sensing head (heat-resistive ABS) Black 20 12.2 3.2 1-mm-wide Slit Seal (Supplied with the Unit in Pairs) 2,000 3.4 Sensing head 1 19 2.2-dia. optical fiber 52 13.4 4 43.2 26.4 Black 2.2-dia. fiber E39-L94 Mounting Bracket (Sold Separately) 23.2 5 E3X-N E3X-N E32-M21 Two hexagon clamping nuts Two toothed washers Silicone tube (see note) Sensing head M3 x 0.35 (SUS303) Note: Plastic fibers, four, 1 dia. One set of silicone tubes is black while the other set is grey for easy identification when they are connected to the emitter and receiver. Sleeve 13 28 1.8 11 2,000 23 E32-T51 Two hexagon clamping nuts Two toothed washers Sensing head M4 x 0.7 (nickel-plated brass) 1.5 dia. 7 2.85 dia. Resistant temperature is 150°C. Resistant temperature is 130°C when used continuously. Note: Resistant temperature is 150°C. Resistant temperature is 130°C when used continuously. Optical fiber, 2.2 dia. 2.4 15 17 1 Note: 2,000 E32-T54 Sensing surface 3 dia. 2 dia. Optical fiber, 2.2 dia. Sensing head (stainless) E32-T61 Two hexagon clamping nuts Two toothed washers 1.0 dia. M2.6 x 0.45 7 3 2.4 20 6 2.8 dia. Hexagon clamping screw 4 dia. 5 dia. Sleeve * (See note) 13 4 dia. 10 2,000 A Note: SUS flexible tube Sensing head M4 x 0.7 (SUS303) 5 28 B Section A resists 300°C and section B (which is inserted to the Amplifier) resists 110°C. The operating temperature of the section to be inserted into the Sensor (marked with *) must be within the operating temperature range of the Amplifier. E3X-N E3X-N Reflective Indicates models that allow free cutting. Models without this mark do not allow free cutting. E32-D11L Two hexagon clamping nuts Two toothed washers Sensing head (nickel-plated brass) M6 x 0.75 Two, 1.4 dia. 4 dia. Two optical fiber,2.2 dia. 3 5.2 10 2.4 20 2,000 E32-D12 2,000 (standard length) 3 dia. 15 135 Two, 1 dia. Sensing head (stainless) Heat-shrinking tubing E32-D21L Two hexagon clamping nuts Two toothed washers Sensing head M4 x 0.7 (nickel-plated brass) Optical fiber, two, 1 dia. Two, 0.9 dia. 3.2 7 Optical fibers, two, 2.2 dia. Two fiber attachments (E39-F9) 25 10 2.4 3 15 2,000 Two fiber attachments (E39-F9) E32-D22L 25 Two, 0.9 dia. Sensing head 3 dia. (nickel-plated brass) 2.7 dia. 10 Optical fiber, two, 1 dia. 3 15 E32-DC200 2,000 Two hexagon clamping nuts Two, 1.0 dia. Two toothed washers Sensing head M6 x 0.75 (ADC) 4 dia. Optical fiber,2.2 dia. 3 2.4 17 4.8 10 E32-DC200B E32-DC200B4 2,000 Stainless Two hexagon clamping nuts Two, 1.0 dia. tube Two toothed washers (SUS304) Sensing head M6 x 0.75 (nickel-plated brass) 2.5 dia. max. 5.2 10 Optical fiber,2.2 dia. 2.4 90 (40) (see note) 17 The value in the parentheses is for the E32-DC200B4. 2,000 E32-DC200E Two hexagon clamping nuts Two toothed washers Sensing head M3 x 0.5 (SUS304) Optical fiber, two, 1 dia. Two, 0.5 dia. Note: Two fiber attachments (E39-F9) 25 10 1.8 2.5 5.5 11 2,000 7 E3X-N E3X-N E32-DC200F E32-DC200F4 Two hexagon clamping nuts Two toothed washers Sensing head M3 x 0.5 (SUS304) Optical fiber, two, 1 dia. Stainless tube Two, 0.5 dia. (SUS304) 1.2 dia. max. 2.5 11 2,000 Note: The value in the parentheses is for the E32-TC200F4. Sensing head Two hexagon clamping nuts (SUS303) Sixteen, Two toothed washers 0.265 dia. M6 X 0.75 Protective tube 2.4 15 5.2 10 E32-D21 10 1.8 90 (40) (see note) 5.5 E32-D11 Two fiber attachment (E39-F9) 25 Optical fiber, two, 2.2 dia. 2,000 17 Sensing head (nickel-plated brass) Two hexagon clamping nuts M3 x 0.5 Two toothed washers Four, 0.25 dia. Protective tube 2.5 Two fiber attachment (E39-F9) 25 10 Optical fiber, two, 1 dia. 15 1.8 11 5.5 2,000 E32-D33 Two fiber attachment (E39-F9) Two, 0.25 dia. Sensing head (SUS303) 3 dia. 0.8 dia. 15 15 25 Heat-shrinkable tubing Optical fiber, two, 1 dia. 10 12 2,000 35 E32-CC200 Sixteen, 0.25 dia. for light reception 1.0 dia. for light emission 2.5 dia. 5.2 10 3 Two hexagon clamping nuts Two toothed washers Sensing head M6 x 0.75 Optical fiber, two, 2.2 dia. (nickel-plated brass) 2.4 23 2,000 Note: The fiber for the emitter is identified by a white line. E32-D32 Two fiber attachments (E39-F9) 25 Light emission fiber (0.5 dia.) Light reception fiber (four, 0.25 dia.) Sensing head (SUS303) Optical fibers, two, 1 dia. 2 dia. 3 dia. Heat-shrinkable tubing 2 15 12 22 Note: 10 2,000 The fiber for the emitter is identified by a white line. E32-D32L Light emission fiber (1 dia.) Light reception fiber (sixteen, 0.265 dia.) 8 15 400 Sensing head, 3 dia. (stainless) 2,000 (standard length) 15 Branching box, 6 dia. (heat-resistive ABS black resin) 1,570 Optical fibers, two, 2.2 dia. E3X-N E3X-N E32-D14L Sensing head (stainless) Optical fiber, two, 2.2 dia. Heat-shrinkable tubing 45° 5.7 1.5 1 6 dia. 2 30 35 Light baffle 12 2,000 Sensing surface Two fiber attachments (E39-F9) E32-D24 25 Sensing head (SUS304) 2 dia. 3 dia. 45° 1 0.5 1.5 15 Heat-shrinkable tubing 15 12 2,000 35 Light baffle Sensing surface E32-D12F Sensing head, 6 dia. Fluoride resin 16 E32-D51 Optical fiber, two, 2.2 dia. 5 dia. 2,000 100 Two hexagon clamping nuts Two toothed washers Optical fiber, two, 2.2 dia. Sensing head,M6 x 0.75* Two, 1.5 dia. *nickel-plated brass 4.9 Note: 2.4 3.1 10 3 13 17 E32-D61 1.4 dia. M4 x 0.7 10 3 2 Note: Resistant temperature is 150°C. Resistant temperature is 130°C when used continuously. 2,000 Two hexagon clamping nuts Two toothed washers SUS303 Sensing head (SUS303) SUS flexible tube Hexagon clamping screw M6 x 0.75 5 dia. 5 dia. 3.5 dia. 20 2.4 3 5 5 2,000 16.5 6.5 Sleeve * (see note) 13 B A Section A resists 300°C and section B (which is inserted to the Amplifier) resists 110°C. The operating temperature of the section to be inserted into the Sensor (marked with *) must be within the operating temperature range of the Amplifier. E32-D73 1.0 dia. 10 Optical fibers, two, 1 dia. Two hexagon clamping nuts Two toothed washers M4 x 0.7 (SUS303) SUS flexible tube 4 dia. 2.8 dia. Sensing head 2.5 dia. 1.25 dia. 1.65 dia. SUS303 Hexagon clamping screw 5 dia. Sleeve 8 7 5 60 2.4 5 20 A Note: 10 2,000 B 5 16.5 * (see note) 13 6.5 15 6.4 C Section A resists 400°C, section B resists 300°C, and section C (which is inserted to the Amplifier) resists 110°C. The operating temperature of the section to be inserted into the Sensor (marked with *) must be within the operating temperature range of the Amplifier. 9 E3X-N E3X-N E32-R21 (One E39-R3 Reflector is supplied with the Sensor) Sensing head (ABS) Lens (PMMA) Two fiber attachments (E39-F9) 25 10 Two hexagon clamping nuts Two washers Silicone tube M6 x 0.75 Optical fibers, two, 1 dia. 5 dia. 2.2 10 3 2.8 11 17.8 14 2,000 27.8 27 E32-R16 (One E39-R1 Reflector is supplied with the Sensor) 15 7 13 3.2 10 7.2 (6) 1.5 3.2 Sensing head (ABS) 1.5 16 4 8 15.2 21.5 Lens (PMMA) 17 21 22.5 Optical fiber, two, 2.2 dia. Standard length: 2 m 16±0.2 Two, M3 screws (attachment) 1 Mounting bracket (attachment) E32-L25 E32-L25A 5 4 20 5 4.8 6.5 10 6.5 Sensing distance 4 4.8 6.5 20 White line Optical fiber, two, 2.2 dia. 6.5 20 20 10 Sensing head (heat resistive ABS) Two, 3.2 dia., 6 dia. spot facing 2,000 Two, 3.2 dia., 6 dia. spot facing White line 2,000 Sensing head (heat resistive ABS) Note: Optical fiber, two, 2.2 dia. The fiber for the emitter is identified by a white line. E32-L25L Lens, two, 3.2 dia. 18 4 Two fiber attachment (E39-F9) 25 6 16 Two, 1 dia. optical fibers 6.5 Sensing head (PC) Two, 3.2 6 dia., counter sinking E32-L24L 4 20 2,000 Lens, two, 3.2 dia. 3.6 3.3 3.3 18 1.5 Optical axis Side view prism (PC) Two fiber attachment (E39-F9) 4 6 25 Two, 1 dia. optical fibers 6.5 Sensing head (PC) Two, 3.2 6 dia., counter sinking 10 10 2,000 10 E3X-N E3X-N Fine Through-beam Indicates models that allow free cutting. Models without this mark do not allow free cutting. E32-T22S Sensing head (nickel-plated brass) 1.7 dia. Optical fiber, 2.2 dia. 3 dia. 15 E32-T24S 0.4 2000 1.8 Sensing head (nickel-plated brass) 17.6 3.5 dia. 11 Optical fiber 2.2 dia. 3.2 Mounting bracket (attachment) 3.2 10 20.5 3 2,000 2 dia. 2 Sensing surface E32-T84S * 2,000 (standard length) (see note) 4 dia. 4 dia. 2.9 dia. flexible tube (stainless) 5 dia. Sleeve 3.5 dia. Sensing head (stainless) 3 dia. Lens (2 dia.) Note: Section A resists 200°C and section B (which is inserted to the Amplifier) resists 110°C. The operating temperature of section to be inserted into the Sensor (marked with *) must be within the operating temperature range of the Amplifier. Slot Fiber Units E32-G14 Sensing head (ABS) 36.3 2,000 25.2 20 9.2 Mounting Holes R1.6 R1.6 Two, M3 R3.5 24 10 Optical axis 3.2 9 9.4 Lens (PMMA) 4 1.6 Optical fiber, two, 2.2 dia. 1.6 23.5 9.4 7.4 7 11 E3X-N E3X-N Reflector Reflector (Miniature) E39-R3 Reflector E39-R1 11 Adhesive tape 40.3 34 Two, 3.5 dia. 7.5 7 20 Note: Mounting bracket is attached. 0.2 59.9 52 25.4 34 38 34.8 8 19.3 Two, M3 22.5 2.7 1.6 1.2 2.6 Attachments E39-F1 Long Distance Lens Unit E39-F2 Side-view Unit M2.6 x 0.45 Effective depth: 3.8 Spot facing depth: 0.9 2.8 dia. E39-F3 Lens-equipped Reflective Unit M2.6 Effective depth: 3.2 Spot facing depth: 0.9 Two, 4 dia. M3 toothed washers Two, 3.2 +0.2 dia. 0 Two, M3 x 3 Slotted head machine screw 4 dia. 4 dia. 18 5.7 6.4 12 9.2 Note: One set includes two units. Note: One set includes two units. E39-F5 Side-view Reflective Unit 12.2 2.1 4 13 4 Note: 12 M3 x 6 Angle fixing screw M2 x 2 4 dia. 6 dia. 3 Lens (3.7 dia.) 13 23 2.6 10.5±0.1 18 20.7 E39-F3A Small Spot Lens Unit Two, M3 Fiber Unit mounting Two, 3.2 dia. holes (E32-TC200A) Mounting hole Sensing hole Two, 3.2 dia. 6.4 8±0.2 6.5 3 3.6 8.5 5 When mounting, remove all of the accompanying screws first and then screw the E32-TC200A into the E39-F5 until the stopper comes into contact. 2.1 dia. E3X-N E3X-N Protective Spiral Tubes E39-F32A, E39-F32A5 E39-F32B, E39-F32B5 M3 x 0.5 depth: 4 Head connector End cap 4.6 dia. 3 dia. 6 dia. 12 12 L Note: 1. L is as follows: E39-F32A and E39-F32B: 1,000 E39-F32A5, E39-F32B5: 500 2. A pair of E39-F32A(5)’s is sold as E39-F32B(5). E39-F32C, E39-F32C5 M4 x 0.7 depth: 4 Head connector 5.6 dia. End cap 4 dia. 7 dia. 12 12 L Note: L is as follows: E39-F32C: 1,000 E39-F32C5: 500 E39-F32D, E39-F32D5 M6 x 0.75 depth: 4 Head connector 7 dia. End cap 5 dia. 8.5 dia. 12 12 L Note: L is as follows: E39-F32D: 1,000 E39-F32D5: 500 13 E3X-N E3X-N Accessories E39-F4 Fiber Cutter Standard fiber insertion hole E39-F9 Attachment for Thin Fiber E39-F10 Fiber Connector Insertion mark 1.1 dia. 2.2 dia. 10 3.6 dia. Note: 14 Splice (polyester) Retention clip (brass) Fiber 11.7 One set includes two units. This Cover is for the E3X-NT Amplifier Unit. E39-G9 Protective Cover Note: Retention clip (brass) 25 E39-G10 Protective Cover Note: Thin fiber insertion hole This Cover is for the E3X-NM Amplifier Unit. 3.8 dia. 26 3 dia. 12.8 2.2 dia. E3X-N E3X-N Installation Connection Connection with S3D2 Sensor Controller Connection with S3D8 Sensor Controller Black Blue Black Blue 0 V Brown IN1 Brown +12 V Note: +12 V 0V A maximum of two E3X-N Sensors can be connected. Power supply voltage 100 to 240 VAC Note: 1. The E3X-N will switch to reverse operation by pressing the L Key. 2. A maximum of eight E3X-NT Sensors can be connected. (For E3X-NM, a maximum of two unit can be connected.) Output Relay IN1 Functions Model AND, OR S3D2-AK AND, OR, and timer S3D2-CK Flip-flop S3D2-BK Transistor AND, OR, and timer S3D2-CC Relay 2 inputs, 2 outputs, S3D2-DK 2 inputs, 2 outputs, and timer S3D2-EK AND, OR S3D2-AKD AND, OR, and timer S3D2-CKD 24 VDC Precautions Fiber Unit Tightening Force Fiber Units The tightening force applied to the Fiber Unit should be as follows: Screw-mounting Model Spring mounting clip Toothed washers Nuts (attachment) 0.78 N S m (8 kgf S cm) M6 screw 0.98 N S m (10 kgf S cm) 2-mm dia. column 0.29 N S m (3 kgf S cm) 3-mm dia. column 0.29 N S m (3 kgf S cm) E32-D14L 0.98 N S m (10 kgf S cm) E32-T12F 0.78 N S m (8 kgf S cm) E32-D12F 0.78 N S m (8 kgf S cm) E32-T16 0.49 N S m (5 kgf S cm) E32-R21 6 kgf S cm max. (0.59 N S m) E32-M21 Up to 5 mm to the tip: 0.49 N S m (5 kgf S cm) Up to 5 mm from the tip: 0.78 N S m (8 kgf S cm) E32-L25A 0.78 N S m (8 kgf S cm) E32-T16P E32-T24S E32-L24L E32-L25L 0.29 N S m (3 kgf S cm) Cylindrical Model Retaining screw (M 3 max.) Clamping torque 3 kgf S cm max. Clamping torque M3/M4 screw Use a proper-sized wrench. 15 E3X-N E3X-N Fiber Connection and Disconnection E3X-NT/NM/NV/NVG The E3X-N Fiber Amplifier Unit adopts a snap-locking system. Connect or disconnect the Fiber Unit according to the following procedures: 1. Connection • E3X-NV/NVG Protective cover Unlocked Locked E3X-NT Lock lever Remove the protection cover, insert the fiber into the Unit, and then lower the lock lever until a click sound is heard. Fiber insertion mark • 3. Precaution When Connecting or Disconnecting Fibers Lock the fiber or release its lock under an ambient temperature range between –10°C and 40°C. E3X-NT Fiber E3X-NM Cutting Fiber Lock button After inserting the fiber into the Unit, press the lock button until a click sound is heard. This will fix the fiber. Insert a fiber into the Fiber Cutter and determine the length of the fiber to be cut. Press down the Fiber Cutter in a single stroke to cut the fiber. An insertion mark can be placed on the fiber to serve as a reference when inserting the fiber into the Amplifier. Use the following procedure. Confirm through the Cutter hole that the fiber is inserted beyond the insertion mark hole so that the insertion mark is properly indicated and then press firmly down on the Cutter. After cutting the fibers using the Fiber Cutter (E39-F4), place an insertion mark on the fiber so that it can be properly inserted into the Amplifier. Insert the fiber into the Amplifier up to this insertion mark. 2. Disconnection • E3X-NT Remove the protective cover, raise the lock lever, and then pull out the fiber. • E3X-NM Press the lock button again. The lock will be released and the button will pop up. Pull out the fiber. Do not forcibly pull up the lock button. (Be sure to pull out the fiber only after confirming that the lock has been released in order to maintain the fiber characteristics.) Insert the fiber into the Amplifier up to the insertion mark. Proper fiber performance will not be achieved unless the fiber is inserted all the way to the insertion mark. (This method is applicable to standard, 2.2-mm-diameter fibers only.) 12.6 Insertion mark E3X-NT Protective cover 2.2-dia. Unlocked Locked The cutting holes cannot be used twice. If the same hole is used twice, the cutting face of the fiber will be rough and the sensing distance will be reduced. Always use an unused hole. Use either one of the two holes on the right (refer to the following figure) to cut a thin fiber as follows: 1. An attachment is temporarily fitted to a thin fiber before shipment. Thin fiber attachment (E39-F9) E3X-NM Locked Unlocked Temporarily fitted 2. Secure the attachment after adjusting the position of it in the direction indicated by the arrow. 16 E3X-N E3X-N 3. Insert the fiber into the E39-F4 to cut. Bending Radius Cutter E39-F4 Two holes for thin fiber Three holes for standard fiber (2.2-mm dia.) E39-F11 Sleeve Bender The bending radius of the stainless tube should be as large as possible. The smaller the bending radius becomes, the shorter the sensing distance will be. Insert the tip of the stainless sleeve to the Sleeve Bender and bend the stainless sleeve slowly along the curve of the Sleeve Bender (refer to the figure). 1.2 dia. max. 1.2 dia. max. 1.3 dia. min. R 10 4. Finished state (proper cutting state). R 12.5 R5 R 7.5 Approx. 0.5 mm Fiber tip position mark Note: Insert the fiber in the direction indicated by the arrow. Stainless tube Connection Do not pull or press the Fiber Units. The Fiber Units have a withstand force of 1 kgf or 3 kgf max. (pay utmost attention because the fibers are thin). Do not bend the Fiber Units beyond the permissible bending radius. Do not bend the edge of the Fiber Units. 90o max. 20 mm min. 10 Correct 10 Amplifier Unit Fiber Unit Do not bend here. Handling 20 mm min. Incorrect Do not apply excess force on the Fiber Units. E32-D51/-T51 Heat-resistive Fiber The bending radius of the fibers should be 35 mm min. Connecting fibers via the E39-F10 Fiber Connector is not possible. The withstand temperature of the Heat-resistive Fibers is 150°C max. In continuous operation, the ambient temperature should be 130°C max. E32-T14/-G14 If the Sensor is ON because some object in front of the lenses reflects light, attach the black seals (sold together) to the lenses. Fiber Unit Nylon wireholder Correct Metal holder Incorrect The Fiber Head could be broken by excessive vibration. To prevent this, the following is effective: A one-turn loop can absorb vibrations. Tape Seal E32-L25 (A) Wafer Sensor Insert the fiber with a white line into the light emission side of the Amplifier. The tightening force of the sensor head is 8 kgf S cm max. (0.75 N S m). Avoid places where water could be sprayed onto the E32-L25(A). E32-T16/-T16P Slit Seal (Attachment) Peel the E32-T16 Slit Seal off the ground paper and affix the Slit Seal to the sensing face of the Sensor so that the corners of the Slit Seal fit in with the corners of the sensing face. To detect an object at a distance of 45 cm max., a 0.5-mm wide Slit Seal must be used. E32-T16 Sensing Head Attachment slit E32-M21 The four fibers must be separated so that there will be no mutual interference. 17 E3X-N E3X-N Amplifier Units Mounting Mounting 1. Mount the front part on the mounting bracket (attachment) or a DIN track. 2. Press the back part onto the mounting bracket or the DIN track. Note: Do not mount the back part onto the mounting bracket or the DIN track first and then mount the front part on the mounting bracket or the DIN track, or the mounting strength of the Amplifier Unit may decrease. (2) (1) DIN track E3X-NT Dismounting By pressing the Amplifier Unit in direction (3) and lifting the fiber insertion part in direction “4” as shown in the following, the Amplifier can be dismounted with ease. (4) DIN track (3) E3X-NT In the case of side mounting, attach the mounting bracket on the Amplifier first, and secure the Amplifier with M3 screws and washers. The diameter of the washers should be 6 mm max. Mutual Interference Protection Function In principle, use the E3X-NM (four channels) for the close connection of a maximum of four Fiber Units. When closely connecting two to three Fiber Units to more than one E3X-NT (one channel), perform with/without-object teaching, in which case teaching must be performed on a single E3X-NT at a time. Therefore, turn on only the E3X-NT on which teaching is performed. If all the E3X-NTs are turned on, interrupt the emitters of the Fiber Units on which teaching is not performed. EEPROM Writing Error Power interruptions or noise caused by static electricity or other causes can result in write errors during any part of the teaching process from teaching initial operating levels without a workpiece to final compensations. These errors include buzzers, lighting of teaching indicators, simultaneous flashing of read/green indicators, lighting of operation indicators, and lighting or flashing of stability indicators. If any of these occur, re-input teaching using the teaching button on the Amplifier. Others When power is off: The moment power is turned off, the E3X-N_ could output a pulse signal which could affect the operation of the devices connected to it. This will happen more often if power is supplied to the E3X-N_ from an external power supply, thus affecting the connected timer and counter. Use a built-in power supply as much as possible to avoid this. In the case of the cord is extended, use a wire with 0.3 mm2 min. The total length of the cord should be 100 m max. Power supply: If a standard switching regulator is used as a power supply, the frame ground (FG) terminal and the ground (G) terminal must be grounded, or otherwise the E3X-N_ can malfunction, influenced by the switching noise of the power supply. The supplied voltage must be within the rated voltage range. Unregulated full- or half-wave rectifiers must not be used as power supplies. Do not lay wiring to the Optical Sensor together with power lines in the same piping or ducts. Doing so will cause induction between the lines, possibly resulting in faulty operation or destruction. Always lay wiring to the Optical Sensor in separate or dedicated piping. Power line E3X-NT Washers (6 dia. max.) E3X-NT Turning Power On After the E3X-N_ is turned on, the E3X-N_ will be ready to operate in 100 ms maximum. If power is supplied to the E3X-N_ and the load is connected to the E3X-N_ independently, be sure to turn on the power supply connected to the E3X-N_ first. Output Short-circuit Protection When the E3X-N_ is turned on or off, no control output will be ON, even though the operation indicator of the E3X-N_ will be lit for an instant. If the short-circuit protection function of the E3X-NM (four channels) is activated, none of the four channels will have any output. Unused Channels of E3X-NM (Four Channels) Unused channel protection seals are provided with the E3X-NM. If all the four channels are not used (e.g., if only three channels are used), paste an unused channel protection seal to the fiber insertion hole. 18 E3X-N E3X-N Attachment Units Applications E39-F10 Fiber Connector Use the following procedure (refer to the figure) to connect fibers via the Fiber Connector. Splice Retention unit Retention unit Fiber Unit Each Fiber Unit should be as close as possible before they are connected. Sensing distance will be reduced by approximately 25% when fibers are connected. Only fibers with 2.2-mm dia. can be connected. Protective Spiral Tube Insert a fiber to the Protective Spiral Tube from the head connector side (screwed) of the tube. Protective spiral tube Fiber Unit Push the fiber into the Protective Spiral Tube. The tube should be straight so that the fiber is not twisted when inserted. Then turn the end cap of the spiral tube. Protective spiral tube Fiber Unit Secure the Protective Spiral Tube on a suitable place with the attached nut. Mounting panel Hexagon clamping nut Fiber Unit Protective spiral tube Toothed washer Use the attached saddle to secure the end cap of the Protective Spiral Tube. To secure the Protective Spiral Tube at a position other than the end cap, apply tape to the tube so that the portion becomes thicker in diameter. Saddle Tube E3X-NT End cap ! WARNING The E3X-N is not a safety component for ensuring the safety of people as defined in EC Directive 91/368/EEC, or as covered by separate European standards or by any other regulations or standards. 19 E3X-N 20 E3X-N E3X-N E3X-N ALL DIMENSIONS SHOWN ARE IN MILLIMETERS. To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527. Cat. No. E233-E1-5 In the interest of product improvement, specifications are subject to change without notice. OMRON Corporation Industrial Sensors Division Sensing Devices and Components Division H.Q. 28th Fl., Crystal Tower Bldg. 1-2-27, Shiromi, Chuo-ku, Osaka 540-6028 Japan Phone: (81)6-949-6012 Fax: (81)6-949-6021 Printed in Japan 0698-2M (1194) a 21