Teaching Optical Fiber Photoelectric Sensor E3X-NV/NVG A W ater-resistant Sensor with a Green Light Source Ideal for the Food and Packaging Industries The E3X-NVG uses a green light source to detect colors that cannot be detected using optical fiber photoelectric sensors with red light sources. (The E3X-NV incorporates a red light source.) Teaching without a workpiece is possible, greatly reducing sensor adjustment effort with no interruption of mark detection. Resists water. Remote teaching function for easy remote teaching from the controller. Ordering Information Amplifier Units Item Red light source Model Light source Power supply Current Control Remote Output Note: Green LED (565 nm) 500 ms max. at rated sensing distance NPN open collector, load current: 100 mA, residual voltage: 1 V max. output Teaching Red LED (680 nm) 50 mA max. time Timer function E3X-NVG21 12 to 24 VDC 10%, ripple (p-p) 10% max. voltage consumption Response Green light source E3X-NV21 (see note) confirmation teaching input function OFF-delay timer (fixed to 40 ms) Indicator (red/green LEDs) and buzzer Pink and blue wires are short-circuited when remote input is ON. Pink and blue wires are not short-circuited when remote input is OFF. Light ON and Dark ON switch selectable It is possible to disable the OFF-delay timer function by using the switch setting. 1 E3X-NV/NVG E3X-NV/NVG Fiber Unit Through-beam Model (Separate) Sensors Appearance Sensing distance (standard object)* (NV : E3X-NV21 ; NVG: E3X-NVG21) Min. sensing object (opaque objects) NV: 540 mm (1,280 mm**) (1.4-mm dia. min.) NVG: 40 mm (120 mm**) (1.4-mm dia. min.) NV: 0.15-mm dia. NVG: 0.5-mm dia. Long distance NV: 540 mm (1.4-mm dia. min.) NVG: 40 mm (1.4-mm dia. min.) NV: 0.15-mm dia. NVG: 0.5-mm dia. Long distance NV: 160 mm (0.9-mm dia. min.) NVG: 10 mm (0.9-mm dia. min.) NV: 0.1-mm dia. NVG: 0.2-mm dia. Long distance with thin fiber NV: 160 mm (0.9-mm dia. min.) NVG: 10 mm (0.9-mm dia. min.) NV: 0.1-mm dia. NVG: 0.2-mm dia. Long distance with thin fiber NV: 290 mm (2,100 mm**) (1-mm dia. min.) NVG: 28 mm (190 mm**) (1-mm dia. min.) NV: 0.1-mm dia. NVG: 0.2-mm dia. General-purpose NV: 290 mm (1-mm dia. min.) NVG: 28 mm (1-mm dia. min.) NV: 0.1-mm dia. NVG: 0.2-mm dia. General-purpose NV: 75 mm (0.5-mm dia. min.) NVG: 7 mm (0.5-mm dia. min.) NV: 0.1-mm dia. NVG: 0.1-mm dia. General-purpose NV: 75 mm (0.5-mm dia. min.) NVG: 8 mm (0.5-mm dia. min.) NV: 0.1-mm dia. NVG: 0.1-mm dia. General-purpose NV: 75 mm (0.5-mm dia. min.) NVG: 8 mm (0.5-mm dia. min.) NV: 0.1-mm dia. NVG: 0.1-mm dia. General-purpose NV: 270 mm (1-mm dia. min.) NVG: 28 mm (1-mm dia. min.) NV: 0.1-mm dia. NVG: 0.2-mm dia. General-purpose M3 screw M4 screw NV: 260 mm (1,400 mm**) (1-mm dia. min.) NVG: 10 mm (120 mm**) (1-mm dia. min.) NV: 0.1-mm dia. NVG: 0.2-mm dia. Flexible (resists breaking) M3 screw NV: 70 mm (0.5-mm dia. min.) NVG: 6 mm (0.5-mm dia. min.) NV: 0.1-mm dia. NVG: 0.1-mm dia. Flexible (resists breaking) NV: 210 mm (850 mm**) (1-mm dia. min.) NVG: 18 mm (100 mm**) (1-mm dia. min.) NV: 0.1-mm dia. NVG: 0.2-mm dia. Flexible spiral cord NV: 210 mm (1-mm dia. min.) NVG: 18 mm (1-mm dia. min.) NV: 0.1-mm dia. NVG: 0.2-mm dia. Flexible spiral cord E32-T1 1L 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) Features M4 screw ( ): E32-TC200B4 E32-T22 2-mm dia. E32-TC200E M3 screw E32-TC200F E32-TC200F4 90 mm (40 mm) M3 screw ( ): E32-TC200F4 E32-TC200A E32-T1 1 E32-T21 E32-TC200C M4 screw E32-TC200D E32-TC200D4 *** 90 mm (40 mm) *** M4 screw ( ): E32-TC200D4 *Standard object: opaque; **With the E39-F1.; ***Cannot be trimmed; ****Teflon is a registered trademark of the Dupont Company and the Mitsui Dupont Chemical Company for their fluoride resin. 2 E3X-NV/NVG E3X-NV/NVG Model Appearance Min. sensing object (opaque objects) Features NV: 140 mm (1-mm dia. min.) NVG: 10 mm (1-mm dia. min.) NV: 0.2-mm dia. NVG: 0.1-mm dia. Side-view; long distance NV: 48 mm (0.5-mm dia. min.) NVG: 2 mm (0.5-mm dia. min.) NV: 0.1-mm dia. NVG: 0.2-mm dia. Side-view; space saving NV: 1,070 mm (4-mm dia. min.) NVG: 80 mm (4-mm dia. min.) NV: 0.2-mm dia. NVG: 0.2-mm dia. Side-view NV: 7,500 mm (10-mm dia. min.) NVG: 800 mm (10-mm dia. min.) NV: 0.5-mm dia. NVG: 2.1-mm dia. Long distance NV: 1,070 mm (4-mm dia. min.) NVG: 70 mm (4-mm dia. min.) NV: 0.3-mm dia. NVG: 0.6-mm dia. Teflon-covered****; 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**** ; side-view; withstands chemicals and harsh environments E32-T16 NV: 1,070 mm (visual field: 2 x 10 mm)***** (10-mm dia. min.) NVG: 150 mm (visual field: 2 x 10 mm) (10-mm dia. min.) NV: 5-mm dia. (0.15-mm dia.)****** NVG: 7-mm dia. (1.0-mm dia.)****** Screened; detects over a 10-mm area E32-M21 NV: 210 mm (2-mm dia. min.) NVG: 20 mm (2-mm dia. min.) NV: 0.1-mm dia. NVG: 0.3-mm dia. 4-head; 4-point detection NV: 320 mm (1.5-mm dia. min.) NVG: 20 mm (1.5-mm dia. min.) NV: 0.3-mm dia. NVG: 1.0-mm dia. Heat-resistant; resists 150C 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-resistant; side-view; resists 150C NV: 190 mm (2,100 mm**) (1-mm dia. min.) NVG: 18 mm (130 mm**) (1-mm dia. min.) NV: 0.15-mm dia. NVG: 0.5-mm dia. Heat-resistant; resists 300C E32-T14L Sensing distance (standard object)* (NV : E3X-NV21 ; NVG: E3X-NVG21) 3-mm dia. E32-T24 1-mm dia. E32-T14 E32-T17L M4 screw E32-T12F 5-mm dia. E32-T14F 5-mm dia. M3 screw *** E32-T51 M4 screw E32-T54 2-mm dia. E32-T61 M4 screw *** *Standard object: opaque; **With the E39-F1.; ***Cannot be trimmed; ****Teflon is a registered trademark of the Dupont Company and the Mitsui Dupont Chemical Company for their fluoride resin. *****Sensing distances for slit applications are in the following table. ****** The minimum size of the sensing object varies with the sensing method. Values not in parentheses are possible within a 10-mm sensing distance. E32-T16 with Slits 0.5-mm Slit width With E3X-NV21 Sensing distance Min. sensing With E3X-NVG21 Sensing object distance Min. sensing object 1.0-mm 480 mm 850 mm 5.0-mm dia. (0.1-mm dia.)* 5.0-mm dia. (0.1-mm dia.)* 20 mm 60 mm 7.0-mm dia. (0.25-mm dia.)* 7.0-mm dia. (0.35-mm dia.)* Sensing method Sensing object * Values without parentheses are possible within a 10-mm sensing area. Values in parentheses are possible at the center of a 10-mm sensing area. 3 E3X-NV/NVG E3X-NV/NVG Reflective Sensors Model Appearance Sensing distance (standard object) (NV : E3X-NV21 ; NVG : E3X-NVG21) White paper E32-D1 1L M6 screw E32-D12 3-mm dia. E32-D21L M4 screw E32-D22L 3-mm dia. E32-DC200 M6 screw 90 mm (40 mm) E32-DC200B E32-DC200B4 M6 screw ( ): E32-DC200B4 E32-DC200E M3 screw 90 mm (40 mm) E32-DC200F E32-DC200F4 M3 screw ( ): E32-DC200F4 E32-D1 1 M6 screw E32-D21 M3 screw E32-DC200C M6 screw * 90 mm (40 mm) E32-DC200D E32-DC200D4 Black paper Min. sensing object (copper wire) Features NV: 160 mm (20 x 20 cm) NVG: 10 mm (2.5 x 2.5 cm) NV: 44 mm (20 x 20 cm) NVG: --- NV: 0.012-mm dia. NVG: 3.0-mm dia. Long distance NV: 85 mm (10 x 10 cm) NVG: 2 mm (2.5 x 2.5 cm) NV: 22 mm (10 x 10 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.6-mm dia. Long distance NV: 38 mm (5 x 5 cm) NVG: 1 mm (2.5 x 2.5 cm) NV: 10 mm (5 x 5 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.0-mm dia. Long distance NV: 38 mm (5 x 5 cm) NVG: 1 mm (2.5 x 2.5 cm) NV: 10 mm (5 x 5 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.0-mm dia. Long distance NV: 110 mm (10 x 10 cm) NVG: 10 mm (2.5 x 2.5 cm) NV: 22 mm (10 x 10 cm) NVG: --- NV: 0.012-mm dia. NVG: 0.2-mm dia. General-purpose NV: 110 mm (10 x 10 cm) NVG: 10 mm (2.5 x 2.5 cm) NV: 22 mm (10 x 10 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.0-mm dia. General-purpose NV: 22 mm (2.5 x 2.5 cm) NVG: 2 mm (2.5 x 2.5 cm) NV: 5 mm (2.5 x 2.5 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.0-mm dia. General-purpose NV: 22 mm (2.5 x 2.5 cm) NVG: 2 mm (2.5 x 2.5 cm) NV: 5 mm (2.5 x 2.5 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.0-mm dia. General-purpose NV: 65 mm (10 x 10 cm) NVG: 7 mm (2.5 x 2.5 cm) NV: 14 mm (10 x 10 cm) NVG: --- NV: 0.012-mm dia. NVG: 0.5-mm dia. Flexible (resists breaking) NV: 9 mm (2.5 x 2.5 cm) NVG: 1 mm (2.5 x 2.5 cm) NV: 1.7 mm (2.5 x 2.5 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.0-mm dia. Flexible (resists breaking) NV: 33 mm (5 x 5 cm) NVG: 2.5 mm (2.5 x 2.5 cm) NV: 6.5 mm (5 x 5 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.0-mm dia. Flexible spiral cord NV: 33 mm (5 x 5 cm) NVG: 2.5 mm (2.5 x 2.5 cm) NV: 6.5 mm (5 x 5 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.0-mm dia. Flexible spiral cord NV: 38 mm (5 x 5 cm) NVG: 2.5 mm (2.5 x 2.5 cm) NV: 7.5 mm (5 x 5 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.0-mm dia. Stainless steel sleeve NV: 7 mm (2.5 x 2.5 cm) NVG: --- NV: 1.4 mm (2.5 x 2.5 cm) NVG: --- NV: 0.012-mm dia. NVG: --- Super-thin; minute object detection NV: 110 mm (10 x 10 cm) NVG: 10 mm (2.5 x 2.5 cm) NV: 22 mm (10 x 10 cm) NVG: 2 mm (2.5 x 2.5 cm) NV: 0.012-mm dia. NVG: 0.5-mm dia. Coaxial; positioning accuracy NV: 33 mm (2.5 x 2.5 cm) NVG: 2.5 mm (2.5 x 2.5 cm) NV: 5.8 mm (2.5 x 2.5 cm) NVG: --- NV: 0.012-mm dia. NVG: 0.5-mm dia. General-purpose NV: 65 mm (10 x 10 cm) NVG: 4 mm (2.5 x 2.5 cm) NV: 11 mm (10 x 10 cm) NVG: --- NV: 0.012-mm dia. NVG: 1-mm dia. General-purpose NV: 44 mm (5 x 5 cm) NVG: 1.5 mm (2.5 x 2.5 cm) NV: 8.8 mm (5 x 5 cm) NVG: --- NV: 0.015-mm dia. NVG: 1.0-mm dia. Side-view; long distance NV: 17 mm (2.5 x 2.5 cm) NVG: 1.6 mm (2.5 x 2.5 cm) NV: 2.8 mm (2.5 x 2.5 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.0-mm dia. Side-view; space saving * M6 screw ( ): E32-DC200D4 90 mm (40 mm) E32-DC9G E32-DC9G4 * 1.2-mm dia. ( ): E32-DC9G4 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 *Cannot be trimmed 4 6-mm dia. 2-mm dia. E3X-NV/NVG E3X-NV/NVG Model Appearance Sensing distance (standard object) (NV : E3X-NV21 ; NVG : E3X-NVG21) White paper Black paper Min. sensing object (copper wire) Features NV: 55 mm (5 x 5 cm) NVG: 4 mm (2.5 x 2.5 cm) NV: 16 mm (5 x 5 cm) NVG: --- NV: 0.012-mm dia. NVG: 0.5-mm dia. Teflon-covered***; withstands chemicals and harsh environments NV: 65 mm (10 x 10 cm) NVG: 5 mm (2.5 x 2.5 cm) NV: 13 mm (10 x 10 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.0-mm dia. Heat-resistive; resists 150C NV: 50 mm (5 x 5 cm) NVG: 5 mm (2.5 x 2.5 cm) NV: 10 mm (5 x 5 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.0-mm dia. Heat-resistive; resists 300C NV: 33 mm (5 x 5 cm) NVG: 3 mm (2.5 x 2.5 cm) NV: 6.6 mm (5 x 5 cm) NVG: --- NV: 0.012-mm dia. NVG: 1.0-mm dia. Heat-resistive; resists 400C NV: 25 to 250 mm (35-mm dia. min.)** --- NV: 0.3-mm dia. Transparent objects detection NV: 150 to 1,500 mm (35-mm dia. min.)** --- NV: 0.5-mm dia. Transparent objects detection E32-L25 NV: 3.3 mm (2.5 x 2.5 cm) --- NV: 0.012-mm dia. Limited reflective; detects wafers and small difference in height E32-L25A NV: 3.3 mm (2.5 x 2.5 cm) --- NV: 0.012-mm dia. Limited reflective; detects wafers and small difference in height E32-L25L NV: 7.2 1.8 mm (2.5 x 2.5 cm) --- NV: 0.012-mm dia. Limited reflective, long distance; detects wafers and small difference in height E32-L24L NV: 4 2 mm (2.5 x 2.5 cm) --- NV: 0.012-mm dia. Limited reflective, long distance, sideview; detects wafers and small difference in height E32-D12F 6-mm dia. E32-D51 M6 screw E32-D61 M6 screw * E32-D73 * M4 screw 1.25-mm dia. E32-R21 +E39-R3 M6 screw Reflector E39-R1 E32-R16 +E39-R1 Reflector E39-R1 *Cannot be trimmed; **Standard object: opaque ***Teflon is a registered trademark of the Dupont Company and the Mitsui Dupont Chemical Company for their fluoride resin. Note: Reflective Sensors: The Photoelectric Sensor may turn ON if the sensitivity is set to maximum, in which case, reduce the sensitivity. Fine Through-beam Model Sensors Appearance E32-T22S Sensing distance (standard (NV : E3X-NV21) object)* Min. sensing object (opaque objects) NV: 650 mm (1.7-mm dia. min.) NV: 0.2-mm dia. General-purpose; detects wafers and small difference in height NV: 480 mm (1.7-mm dia. min.) NV: 0.1-mm dia. Side-view; detects wafers and small difference in height 3-mm dia. E32-T24S 3.5 x 3 mm dia. Features *Standard object: opaque 5 E3X-NV/NVG E3X-NV/NVG Slot Sensors Model Appearance Sensing distance (NV : E3X-NV21; (standard object)* NV : E3X-NVG21) 10 mm (slot width)** (4-mm dia. min.) E32-G14 Min. sensing object (opaque objects) Features NV: 0.4-mm dia. NVG: 0.6-mm dia. Slot through-beam; no optical axis adjustment required *Standard object: opaque ** 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. High-precision Screen Model Sensors Appearance E32-T16P * Slit width Sensing distance (NV : E3X-NV21) Min. sensing object* (horizontal beam) Not used NV: 480 mm NV: 1.3-mm dia. (0.6-mm dia.) 0.5 mm wide NV: 80 mm NV: 1.3-mm dia. (0.4-mm dia.) 1.0 mm wide NV: 160 mm NV: 1.3-mm dia. (0.5-mm dia.) Values not in parentheses represent sensing objects within the 11-mm sensing area and values in parentheses represent sensing objects in the center of the E32-T16P sensing area. The diameters of sensing objects in the above table represent sensing object sizes, on condition that the objects are not moving. Sensing Direction Mounting Bracket Sold in pairs. Model E39-L94 Sensing object for E32-T16P (Option) Applicable fibers E32-T16P Specifications Ratings/Characteristics Amplifier Unit Item Circuit E3X-NV21 E3X-NVG21 Orange LED: Lit during output operation Green LED: Lit with stable light reception or no light Indicator protection Reverse polarity, Output short-circuit Ambient illumination Sunlight: 10,000 x max.; Incandescent lamp: 3,000 x max. Ambient temperature Operating: Storage: Ambient humidity Operating: 35% to 85% (with no condensation) 25C to 55C (with no icing) 40C to 70C (with no icing) resistance 20 MW min. (at 500 VDC) Dielectric strength 1,000 VAC, 50/60 Hz for 1 min V ibration 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 Insulation Shock resistance 500 m/s2 (approx. 50G) for 3 times each in X, Y, and Z directions Enclosure IEC IP66 (with protective cover in place) (see note) rating Material Case: Heat-resistive ABS; Cover: Polycarbonate W eight (with 2-m cord) Approx. 100 g Note: 6 The enclosure rating of the Amplifier is IP65 when the Amplifier is connected to a Fine Fiber Sensor, a Heat-resistive Sensor (such as the E32-T61, E32-D61, or E32-D73), a Sleeve Fiber Sensor, or the E32-M21. The enclosure rating of the Amplifier with no protective cover is IP50. E3X-NV/NVG E3X-NV/NVG Fiber Unit Common Heat-resistive fiber: Other fibers: Ambient storage temperature Ambient storage V ibration Operating: 35% to 95% (with no condensation) humidity 10 to 55 Hz, 1.5-mm double amplitude for 2 hrs each in X, Y, and Z directions resistance 500 m/s2 (approx. 50G) for 3 times each in X, Y, and Z directions Shock resistance Through-beam Model E32-T1 1L E32-T12L 40C to 110C (with no icing) 40C to 70C (with no icing) (Separate) Sensors Ambient temperature Operating: 40C to 70C (with no icing) Ambient humidity Operating: 35% to 85% Permissible bending radius Material 25 mm min. Black polyethylene 4 mm min. Vinyl chloride 25 mm min. Black polyethylene Operating: 30C to 70C (with no icing) 40 mm min. Teflon-covered* black polyethylene Operating: 40C to 70C (with no icing) 25 mm min. Black polyethylene Operating: 40C to 150C** (with no icing) 35 mm min. Fluoride resin Operating: 40C to 300C (with no icing) 25 mm min. SUS Enclosure rating IEC IP67 E32-T21L E32-T22L E32-TC200 E32-TC200B E32-TC200B4 E32-T22 E32-TC200E E32-TC200F E32-TC200F4 E32-TC200A E32-T1 1 E32-T21 E32-TC200C E32-TC200D E32-TC200D4 E32-T14L E32-T24 E32-T14 E32-T17L E32-T12F E32-T14F E32-T16 E32-M21 E32-T51 E32-T54 E32-T61 *Teflon is a registered trademark of the Dupont Company and the Mitsui Dupont Chemical Company for their fluoride resin. **When used continuously between 40C and 130C. 7 E3X-NV/NVG E3X-NV/NVG Reflective Sensors Differential Model travel 20% of max. of sensing distance E32-D1 1L E32-D12 Ambient temperature Ambient humidity Operating: 40C to 70C (with no icing) Operating: 35% to 85% Permissible bending radius Material Enclosure 25 mm min. Black polyethylene 4 mm min. Vinyl chloride 25 mm min. Black polyethylene rating IEC IP67 E32-D21L E32-D22L E32-DC200 E32-DC200B E32-DC200B4 E32-DC200E E32-DC200F E32-DC200F4 E32-D1 1 E32-D21 E32-DC200C E32-DC200D E32-DC200D4 E32-DC9G E32-DC9G4 E32-D33 E32-CC200 E32-D32 E32-D32L E32-D14L E32-D24 E32-D12F Operating: 30C to 70C (with no icing) 40 mm min. Teflon-covered black polyethylene* E32-D51 Operating: 40C to 150C (with no icing)** 35 mm min. Fluoride resin E32-D61 Operating: 40C to 300C (with no icing) 25 mm min. SUS E32-D73 Operating: 40C to 400C (with no icing) E32-R21 E39-R3 with Operating: 40C to 70C (with no icing) E32-R16 E39-R1 with Operating: 25C to 55C (with no icing) IEC IP66 Operating: 40C to 70C (with no icing) IEC IP50 5% of max. of sensing distance E32-L25*** Black polyethylene E32-L25A*** 10 mm min. (average at 10% decrease of sensing distance) Operating: 40C to 105C E32-L25L*** E32-L24L*** Reinforced polyethylene *Teflon is a registered trademark of the Dupont Company and the Mitsui Dupont Chemical Company for their fluoride resin. **When used continuously between 40C and 130C. ***Beam size: 2-mm dia. Fine Through-beam Model E32-T22S E32-T24S 8 Sensors Beam size 13-mm dia. (at a distance of 200 mm) Ambient temperature Operating: 40C to 70C (with no icing) Ambient humidity Operating: 35% to 85% Permissible bending radius* 10 mm min. Material Reinforced laminated vinyl chloride Enclosure rating IEC IP67 E3X-NV/NVG E3X-NV/NVG *Average at 70% decrease of sensing distance Slot Sensors Ambient Model temperature Ambient Operating: 40C to 70C (with no icing) E32-G14 High-precision Screen Model Permissible bending radius Operating: 35% to 85% Material 25 mm min. Enclosure rating Fiber sheath: Black polyethylene IEC IP67 Fiber Unit Ambient temperature Ambient Operating: 40C to 70C (with no icing) E32-T16P ** humidity humidity Permissible bending radius* Operating: 35% to 85% Material 10 mm min. Enclosure rating Sensing head: Heat-resistive ABS Fiber sheath: Vinyl chloride IEC IP50 *Average at 10% decrease of sensing distance **Attachments: two slits each (0.5 mm and 1.0 mm wide) Attachments Name Small Spot Lens Unit Applications Detection 0.5-mm-dia. E39-F3A Model Increasing fibers Lens Unit sensing distance E39-F1 Reflective Appearance Applicable Long Distance over spots Through-beam (separate) E32-D32 E32-T11L E32-TC200 E32-T61 E32-T11 E32-TC200C 22 mm* 1,280 mm 2,100 mm 1,400 mm 850 mm White paper 2.5 x 2.5 cm Opaque objects: 4-mm dia. min. 120 mm 100 mm With Sensing distance E3X-NV21 Standard object With Sensing distance --- 120 mm E3X-NVG21 Standard object --- Opaque objects: 4-mm dia. min. --- 5 to 40 20% of sensing distance --- Operating: 40C to 70C E32-T61: 40C to 200C (Do not exceed the operating temperature of the fiber. ) Brass Directivity Differential travel Ambient temperature Material Shaft Aluminum Lens Optical glass Base --- Reflector --- 190 mm** *When inserting 15 mm. **E32-T61: 130 mm Name Side-view Applications Changing Unit the sensing direction at 90 E39-F2 Model Appearance Applicable Through-beam (separate) fibers With Sensing distance E3X-NV21 Standard object With Sensing distance E3X-NVG21 Standard object E32-T11L E32-TC200 E32-T61 E32-T11 E32-TC200C 265 mm 265 mm 210 mm 105 mm 10 mm 6 mm Opaque objects: 3-mm dia. min. 10 mm 19 mm Opaque objects: 4-mm dia. min. Opaque objects: 3-mm dia. min. 20 to 60 Directivity Differential travel --E32-T61: 40C to 200C (Do not exceed the operating temperature of the fiber.) Ambient temperature Material Shaft Brass Lens Optical glass Base --- Reflector --- 9 E3X-NV/NVG E3X-NV/NVG Name Lens-equipped Applications Converting through-beam Reflective sensors Unit to reflective sensors E39-F3 Model Appearance Reflective Applicable E32-T11L E32-TC200 distance White paper 55 to 160 mm* 85 to 110 mm* fibers With Sensing E3X-NV21 (standard With Sensing E3X-NVG21 (standard E32-T61 object) Black paper --- 16 to 18 mm* 17 to 19 mm* distance White paper --- 10 to 15 mm* (2.5 x 2.5 cm) --- object) Black paper ----- Directivity Differential 20% of sensing distance travel E32-T61: 40C to 200C (Do not exceed the operating temperature of the fiber.) Ambient temperature Material Shaft Brass Lens Optical glass Base Aluminum Reflector --- Name Lens-equipped Applications Converting Reflective through-beam sensors sensors Unit to reflective E39-F3 Model Side-view Reflective Unit Converting through-beam to reflective sensor E39-F5 Appearance Reflective Reflective Applicable E32-T11 E32-TC200C E32-TC200A distance White paper 90 to 110 mm* 85 to 110 mm* 5 to 32 mm* object) Black paper --- distance White paper --- object) Black paper --- fibers With Sensing E3X-NV21 (standard With Sensing E3X-NVG21 (standard --- Directivity Differential travel 20% of sensing distance E32-T61: 40C to 200C (Do not exceed the operating temperature of the fiber.) Operating: 40C to 70C Shaft Brass --- Lens Optical glass --- Base Aluminum Brass Reflector --- Stainless Ambient temperature Material *These values are possible when the angle of the E39-F3 is smallest (parallel). 10 6 to 10 mm* E3X-NV/NVG E3X-NV/NVG Beam Spot Characteristics E39-F3A with E32-D32 d Fiber E32-D32 d:0:Spot Spotdiameter diameter(mm) (mm) : Insertion d: Focal distance Focal length d (mm) 1.0 0.8 0.5 Insertion distance Spiral (mm) Tubes E39-F32A5 Model E39-F32A E39-F32B5 E39-F32B End cap Length 500 mm (L) Applicable E39-F32C5 E39-F32C E39-F32D5 E39-F32D L Appearance fiber 1,000 mm E32-DC200E E32-DC200F(4) E32-D21 500 mm Tube 1,000 mm E32-TC200E E32-TC200F(4) E32-T21 E32-T21L Head connector 500 mm 1,000 mm E32-TC200 E32-TC200B(4) E32-T11 E32-T51 E32-T11L Ambient temperature Operating: 40C to 150C (Do not exceed the operating temperature of the fiber) Ambient humidity Operating: 35% to 85% Permissible radius bending 1,000 mm E32-DC200 E32-DC200B(4) E32-CC200 E32-D11 E32-D51 E32-D11L 30 mm min. Tensile strength Between head connector and end cap with tube: 15 kgf S cm max. (1.5 N S m) Tube: 20 kgf S cm max. (2 N S m) Compression Tube: 3 kg max. (29.4 N) load 500 mm Accessories Name Fiber Cutter Model E39-F4 Fine-fiber E39-F9 Attachment Fiber Connector Used to cut fibers to desired lengths Used when inserting fine fibers into the amp Used to connect fibers when broken Used to bend fiber sleeves 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-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-TC200D(4) E32-DC200F(4), -TC200F(4) E32-DC9G(4) E39-F10 Sleeve Bender E39-F1 1 Appearance Features Applicable fiber Light Source Color Selection 11 E3X-NV/NVG E3X-NV/NVG To distinguish two colors, select a light source color that creates a large difference in the reflection rate between the two colors. Reflection Rates Red Light Source Refer to the following table to select the best light source color to distinguish colors. White Reflection rate White Red White Light Source Green Black (E3X-NVG) Reflection rate Green Red White 12 Red Green Light source Colors to be distinguished (E3X-NV) Black Red Red Green Green Yes Yes Green Yes Black Red Yes Black Green White Black Yes Yes Yes E3X-NV/NVG E3X-NV/NVG Engineering Data Excess Gain Ratio (Typical) E32-TC200 E32-T1 1L E32-T1 1L with E39-F1 E3X-NT/NVG Excess gain ratio E3X-NV/NVG Sensing distance Sensing distance Excess gain ratio Excess gain ratio Sensing distance Sensing distance E3X-NV/NVG E3X-NV/NVG Sensing distance (mm) Sensing distance (mm) E32-T1 1L with E39-F2 Sensing distance (m) E32-T1 1L with E39-F3 E32-T21L (When the angle of the E39-F3 is at its minimum (parallel).) E3X-NV/NVG Sensing distance (mm) Sensing Sensing distance distance E3X-NV/NVG E3X-NV/NVG E32-T17L E32-T16 Sensing distance (mm) Sensing distance Excess gain ratio E3X-NV/NVG Sensing distance (m) Sensing distance Excess gain ratio Sensing distance E3X-NV/NVG E3X-NV/NVG E3X-NV/NVG Sensing distance (mm) Sensing distance (mm) E32-T14L Excess gain ratio Sensing distance Excess gain ratio Sensing object Excess gain ratio Excess gain ratio Sensing Sensingdistance distance E3X-NV/NVG Sensing distance (m) 13 E3X-NV/NVG E3X-NV/NVG E32-DC200 E32-D1 1L E32-D21L Sensing distance Sensing object E3X-NV/NVG Sensing object Sensing distance (mm) Sensing distance (mm) E32-T16P E3X-NV/NVG E3X/NV/NVG Excess gain ratio Sensing object Excess gain ratio Excess gain ratio E3X-NV/NVG E3X/NV/NVG Sensing distance Sensing distance Sensing distance (mm) E32-CC200 E32-T22S (mV) Sensing distance Sensing distance Sensing distance E3X-NV/NVG Sensing distance (mm) Sensing distance (cm) E32-T24S Sensing distance (mm) E32-T14F E32-T54 Sensing distance Sensing distance E3X-NV/NVG Excess gain ratio E3X/NV/NVG E3X-NV/NVG Excess gain Excess gain ratio Sensing Sensing object Sensing distance Sensing distance (mm) 14 E3X-NV/NVG Sensing distance (mm) Excess gain ratio Excess gain ratio Excess gain ratio E3X/NV/NVG E3X-NV/NVG E3X/NV/NVG E3X-NV/NVG Sensing distance (mm) E3X-NV/NVG E3X-NV/NVG Operating Range (Typical) With standard sensing object at max. sensitivity. Set distance X (mm) E3X-NV/NVG E3X-NV/NVG Set Set distance distance X X (mm) (mm) E3X-NV/NVG Set distance X (mm) E3X-NV/NVG Operating position Y (mm) E32-CC200 Operating position Y (mm) E32-D21L Operating position Y (mm) E32-D1 1L Operating position Y (mm) E32-DC200 Set Set distance distance X X (mm) (mm) E3X-NV/NVG E3X-NV/NVG Operating position Y (mm) E32-L24L Parallel E3X-NV/NVG Operating Range (Typical) At max. sensitivity. E32-T1 1L Set distance Set distance X (mm) X (mm) E3X-NV/NVG E3X-NV/NVG Parallel operating range Y (mm) Parallel operating range Y (mm) E32-TC200 Set distance X (mm) E3X-NV/NVG 15 E3X-NV/NVG E3X-NV/NVG Set distance X (m) E3X-NV/NVG E3X-NV/NVG E3X-NV/NVG E3X-NV/NVG Parallel operating range Y (cm) E3X-NV/NVG Set distance X (mm) E3X-NV/NVG E3X-NV/NVG E32-T12F Set distance X (mm) E3X-NV/NVG E32-T22S Parallel operating range Y (mm) Parallel operating range Y (mm) Set Setdistance distance X X(mm) (mm) E32-T17L 16 Set distance X (mm) E32-T14L Parallel operating range Y (cm) Parallel operating range Y (mm) E32-T21L Parallel operating range Y (mm) E32-T1 1L with E39-F2 Set distance X (mm) E3X-NV/NVG E3X-NV/NVG E32-T24S Set distance distance Set X (mm) (mm) X E3X-NV/NVG Parallel operating range Y (mm) Parallel operating range Y (cm) E32-T1 1L with E39-F1 Set distance X (mm) E3X-NV/NVG E3X-NV/NVG E3X-NV/NVG E3X-NV/NVG vs. Operating Range (Typical) 0.1-mm 0.1-mm dia. dia. E32-D22L 0.3-mm dia. 0.5-mm dia. 0.03-mm dia. Set Setdistance distance XX(mm) (mm) Operating position Y (mm) E32-D1 1L with E3X-NV/NVG Operating position Y (mm) E32-CC200 Operating position Y (mm) with E3X-NV/NVG E32-D33 0.1-mm 0.1-mm dia. dia. 0.03-mm dia. 0.3-mm dia. 0.5-mm 0.5-mmdia. dia. Set distance X (mm) with E3X-NV/NVG 0.03-mm dia. Operating position Y (mm) Operating position Y (mm) E32-DC200 Objects E32-D32 0.1-mm dia. Setdistance distance Set (mm) XX(mm) 0.5-mm dia. dia. o.5-mm Operating position Y (mm) Sensing with E3X-NV/NVG 0.03-mm dia. 0.3-mm dia. 0.3-mm dia. 0.5-mm dia. Set distance X (mm) 0.1-mm dia. with E3X-NV/NVG 0.3-mm dia. 0.03-mm dia. dia. 0.03-mm 0.5-mm dia. 0.5-mm dia. 0.1-mm dia. Setdidtance distance Set (mm) X X(mm) with E3X-NV/NVG 0.1-mm dia. 0.3-mm 0.3-mm dia.dia. 0.03-mmdia. dia. 0.03-mm 0.5-mm dia. Set distance X (mm) 0.3-mm dia. E32-T14F Set Setdistance distance XX(mm) (mm) E3X-NV/NVG E3X-NV/NVG Parallel operating range Y (mm) Parallel operating range Y (mm) E32-T54 Set distance X (mm) E3X-NV/NVG E3X-NV/NVG 17 E3X-NV/NVG E3X-NV/NVG Operation Output Circuits E3X-NV21/NVG21 T iming Chart Teaching indicator (red/green) Operation indicator (orange) Brown Black Stability indicator (green) Incident Interrupted Load Control output Main circuit With/Without-object Teaching, Teaching, Maximum Dark-ON Operation indicator (orange) ON OFF ON Output OFF transistor Operates Load Releases (relay) (Between brown and black terminals) ON OFF ON Output OFF transistor Operates Load Releases (relay) (Between brown and black terminals) Remote teaching input No-object Incident Interrupted Operation indicator (orange) 12 to 24 VDC Blue Pink Light-ON Sensitivity Setting Refer to the following table to select the most suitable sensitivity setting method. Sensitivity setting Maximum method Typical application sensitivity setting No-object teaching With/Without-object Detection of the existence of objects that interrupt light perfectly If teaching is impossible by stopping the movement of sensing objects Detection of objects with no background objects To detect bright or dark objects by teaching only with background objects teaching Detection of a slight difference in reflection Color discrimination Background objects with unstable reflection Detection of object surface irregularities Elimination of background object influence Note: 1. 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. 2. When closely connecting two to three Fiber Units to more than one E3X-NV/NVG, perform with/without-object teaching, in which case teaching must be performed on a single E3X-NV/NVG at a time. Therefore, turn on only the E3X-NV/NVG on which teaching is performed. If all the E3X-NV/NVGs are turned on, interrupt the emitters of the Fiber Units on which teaching is not performed. No-object Teaching With Reflective with an Initial Operating (Light-ON) Level Compensation Fiber Unit 1. Teaching button is pressed once. 2. The first sensing object is in the sensing area. Large Large ON 10% Light Light 10% Operating level Light level of background Change to RUN mode OFF Light Operating level Operating level 10% The light level increases and the Photoelectric Sensor works in reflective operation. Set the operating level to 10% of the light level. Small Function Small 0 0 3. Sensing objects continue to pass through the sensing area. Large Resetting Operating level Light Light (1) (2) (3) (4) (5) (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 18 0 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. E3X-NV/NVG E3X-NV/NVG 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 Operating level 10 % Light Light 10 % Light level with no object The light value decreases and the Photoelectric Sensor works in through-beam operation. Change to RUN mode Light Operating level ON Set the operating level to 10% of the light level. Small 10% OFF 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 Light (2) (3) (4) (5) (6) Operating level Small Note: Resetting 0 1. After no-object teaching, when the E3X-NVj 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-NVj is turned on. 4. During no-object teaching, after the E3X-NVj is in RUN mode, the E3X-NVj requires approximately 60 ms to determine the operating level from the time the first sensing object is in the sensing area. After the operating level is determined, the E3X-NVj will operate with a normal response speed of 500 ms. Remote Teaching Function Remote Teaching Function In principle, the remote teaching function of the E3X-NVj 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 1. If remote teaching is not performed, cut the pink wire at the base or connect the pink wire to the +V terminal. 2. After remote teaching input setting is finished, the E3X-NVj will be ready to detect objects in approximately one second. Black Control output Pink Blue 0 V ON Power supply OFF Remote teaching input With/Without-object T1 teaching T2 T1 H L T1: 0.5 to 2 s Maximum sensitivity setting T3 H L No-object T3: 5 s min. T4 teaching T2: 3 s min. T5 T4 H L T4: 0.5 to 2 s T5: 1.5 to 2 s 19 E3X-NV/NVG E3X-NV/NVG Optical Axis Adjustment (Super-flashing Function) Set the mode selector of the E3X-NVj to TEACH. The super flashing function of E3X-NVj 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 E3XNVj. Do not press the teaching button before or while adjusting the optical axes, otherwise, the super-flashing function will not operate. q 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 (q) Flashing Lit Flashing Dimensions Note: All units are in millimeters unless otherwise indicated. E3X-NV E3X-NVG Operation indicator Stability indicator Teaching indicator Cord: Polyvinyl chloride-covered cord 4-mm dia., 4 cores Standard length: 2 m Two, 2.4 dia. Two, 3.2-dia. holes 20 Mounting bracket (removable) E3X-NV/NVG E3X-NV/NVG Installation Connection Connection with S3D2 Sensor Controller Connection with S3D8 Sensor Black Blue Black Blue 0 V Brown IN1 Brown +12 V Note: Controller 0V A maximum of two E3X-NVj Sensors can be connected. +12 V Note: IN1 1. The E3X-NVj will switch to reverse operation by pressing the L Key. 2. A maximum of eight E3X-NVj Sensors can be connected. Precautions ! Amplifier W ARNING The voltage supplied to the E3X-NV/NVG must be within the rated voltage range. If a voltage exceeding the rated upper limit is imposed on the E3X-NV/NVG, the E3X-NV/NVG may explode or burn. Connect each power line of the E3X-NV/NVG correctly, otherwise the E3X-NV/NVG may explode or burn. Do not short-circuit the load connected to the E3X-NV/NVG, otherwise the E3X-NV/NVG may explode or burn. ! Caution Units Mounting Mounting 1. Mount the front part on the mounting bracket (sold together) 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. Fiber Unit Fiber Connection and Disconnection The E3X-NVj Amplifier has a push lock. Connect or disconnect the fibers to or from the E3X-NVj Amplifier using the following procedures: 1. Connection Locked (2) (1) DIN track Unlocked 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. After inserting the fiber into the Unit, push down the lock lever to secure the fiber. After cutting the fibers with 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 Push up the lock lever so that the fiber can be pulled out. In order not to damage the fiber, make sure that the fiber is unlocked before pulling out the fiber. 3. The fiber must be locked or released in a temperature range of 10 to 40C. (4) DIN track (3) 21 E3X-NV/NVG E3X-NV/NVG 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. Washers (6 dia. max.) Pull back the gray rail on the rear bottom with a flat-blade screwdriver so that the Amplifier can be dismounted with ease. Turning Power On After the E3X-NVj is turned on, the E3X-NVj will be ready to operate in 100 ms maximum. If power is supplied to the E3X-NVj and the load is connected to the E3X-NVj independently, be sure to turn on the power supply connected to the E3X-NVj first. When the E3X-NVj is turned on or off, no control output will be ON, even though the operation indicator of the E3X-NVj will be lit for an instant. Mutual Interference Protection When power is off: The moment power is turned off, the E3X-NVj 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-NVj 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-NVj 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. Function When closely connecting two to three Fiber Units to more than one E3X-NVj, perform with/without-object teaching, in which case teaching must be performed on a single E3X-NVj at a time. Therefore, turn on only the E3X-NVj on which teaching is performed. If all the E3X-NVj are turned on, interrupt the emitters of the Fiber Units on which teaching is not performed. 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 red/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. Unlike the case with teaching errors, if any memory error occurs, red/green teaching indicators will flash simultaneously, and operation indicators and stability indicators will also flash. 22 Others Power line E3X-NV/NVG E3X-NV/NVG 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. E249-E1-2 OMRON In the interest of product improvement, specifications are subject to change without notice. Corporation Systems Components Division H.Q. 28th Fl., Crystal Tower Bldg. 1-2-27, Shiromi, Chuo-ku, Osaka 540 Japan Phone: 06-949-6012 Fax: 06-949-6021 Printed in Japan 1296-1M (1195) a 23 Page 11 Note 1, Dan Roberts, 21/05/98 14:35:16 0: Spot diameter (mm) Page 13 Note 2, Dan Roberts, 21/05/98 14:36:37 Sensing distance Note 3, Dan Roberts, 21/05/98 14:37:13 E3X-NV/NVG Note 4, Dan Roberts, 21/05/98 14:37:41 Sensing distance Note 5, Dan Roberts, 21/05/98 14:38:09 Sensing distance Note 6, Dan Roberts, 21/05/98 14:38:35 E3X-NV/NVG Note 7, Dan Roberts, 21/05/98 14:50:29 E3X-NV/NVG Page 14 Note 8, Dan Roberts, 21/05/98 14:51:16 E3X/NV/NVG Note 9, Dan Roberts, 21/05/98 14:51:37 E3X/NV/NVG Note 10, Dan Roberts, 21/05/98 14:51:57 E3X/NV/NVG Note 11, Dan Roberts, 21/05/98 14:52:21 E3X/NV/NVG Note 12, Dan Roberts, 21/05/98 14:52:38 E3X/NV/NVG Note 13, Dan Roberts, 21/05/98 14:53:26 Sensing object Page 15 Note 14, Dan Roberts, 21/05/98 14:54:46 E3X-NV/NVG Note 15, Dan Roberts, 21/05/98 14:54:59 E3X-NV/NVG Note 16, Dan Roberts, 21/05/98 14:55:24 E3X-NV/NVG Note 17, Dan Roberts, 21/05/98 14:55:57 Set distance X (mm) Note 18, Dan Roberts, 21/05/98 14:58:33 Set distance X (mm) Note 19, Dan Roberts, 21/05/98 14:59:37 Set distance X (mm) Page 16 Note 20, Dan Roberts, 21/05/98 15:29:31 E3X-NV/NVG Note 21, Dan Roberts, 21/05/98 15:30:10 Set distance X (mm) Note 22, Dan Roberts, 21/05/98 15:31:05 E3X-NV/NVG Note 23, Dan Roberts, 21/05/98 15:31:19 E3X-NV/NVG Note 24, Dan Roberts, 21/05/98 15:31:42 E3X-NV/NVG Note 25, Dan Roberts, 21/05/98 15:32:00 E3X-NV/NVG Note 26, Dan Roberts, 21/05/98 15:32:56 Set distance X (mm) Page 17 Note 27, Dan Roberts, 21/05/98 15:33:42 Set distance X (mm) Note 28, Dan Roberts, 21/05/98 15:34:22 0.1-mm dia. Note 29, Dan Roberts, 21/05/98 15:34:55 0.3-mm dia. Note 30, Dan Roberts, 21/05/98 15:35:30 0.1-mm dia. Note 31, Dan Roberts, 21/05/98 15:35:57 0.5-mm dia. Note 32, Dan Roberts, 21/05/98 15:36:19 0.03-mm dia. Note 33, Dan Roberts, 21/05/98 15:36:47 0.5-mm dia. Note 34, Dan Roberts, 21/05/98 15:37:03 Set didtance X (mm) Note 35, Dan Roberts, 21/05/98 15:37:41 Set distance X (mm) Note 36, Dan Roberts, 21/05/98 15:38:11 o.5-mm dia. Note 37, Dan Roberts, 21/05/98 15:38:32 0.03-mm dia. Note 38, Dan Roberts, 21/05/98 15:38:51 0.3-mm dia. Note 39, Dan Roberts, 21/05/98 15:39:21 Set distance X (mm) Note 40, Dan Roberts, 21/05/98 15:39:47 E3X-NV/NVG Note 41, Dan Roberts, 21/05/98 15:40:07 E3X-NV/NVG Page 18 Note 42, Dan Roberts, 21/05/98 15:53:44 Light Note 43, Dan Roberts, 21/05/98 15:54:02 Light Page 19 Note 44, Dan Roberts, 21/05/98 15:54:41 Light Note 45, Dan Roberts, 21/05/98 15:55:06 Light