Digital Fiber Sensors E3X-DA-S Stable Detection with Advanced Fiber Sensors * A wide range of added value with standard models with one input and two outputs, and ultra-long-term APC models with an APC life of approximately 20 years. * Power turning to easily set the optimum light level. * Automatic Power Control (APC) is always enabled to stabilize emitter power with high accuracy. * GIGA RAY for stable detection with the highest level of power in this class even for low-reflective objects and large objects. * The E3X-DA0-S supports an EtherCAT Communications Unit or CompoNet Communications Unit. For the most recent information on models that have been certified for safety standards, refer to your OMRON website. Ordering Information Amplifier Units Pre-wired Models and Wire-saving Connector Models [Dimensionspage 25] Type Appearance Pre-wired (2 m) Applicable wire-saving connector (sold separately) Model Connecting method NPN output PNP output E3X-DA21-S 2M E3X-DA51-S 2M Standard models Wire-saving connector E3X-DA7-S Pre-wired (2 m) E3X-DA21R-S 2M E3X-DA9-S E3X-DA51R-S 2M Ultra-long-term APC models Wire-saving connector E3X-DA7R-S Pre-wired (2 m) E3X-DA21F-S 2M E3X-DA9R-S E3X-DA51F-S 2M High-speed response models Wire-saving connector E3X-DA7F-S E3X-DA9F-S Type Model --- --- Master connector E3X-CN21 Slave connector E3X-CN22 --- --- Master connector E3X-CN21 Slave connector E3X-CN22 --- --- Master connector E3X-CN11 Slave connector E3X-CN12 A Wire-saving connector sold separately is required. Communications Unit Connector Models (for EtherCAT and CompoNet) [Dimensionspage 27] Type Standard model Appearance Connecting method Connector for Communications Unit Model E3X-DA0-S 1 E3X-DA-S Wire-saving Connectors (sold separately) Type Appearance Protection stickers attached [Dimensionspage 27] Cable length No. of conductors Model Master connector 4 E3X-CN21 Slave connector 2 E3X-CN22 Master connector 3 E3X-CN11 Slave connector 1 E3X-CN12 2m Note: The E3X-CN11/12 can also be used to connect to the E3X-DA@-S (@: 7/9) or the E3X-DA@R-S (@: 7/9), but the output lines will support only 1 channel. Output function for channel 2 or APC alarm output function will be disabled. Accessories (sold separately) Mounting Brackets [Dimensionspage 28] Appearance End Plate [Dimensionspage 28] Model Quantity E39-L143 1 Appearance Model Quantity PFP-M 1 Product Overview }: Strong point of the model Types Connecting method Models Item Input/output External input Output Pre-wired Wire-saving connector E3X-DA21-S E3X-DA51-S E3X-DA7-S E3X-DA9-S 1 input --- Ultra-long-term APC models {: Provided ---: Not provided High-speed response models Pre-wired Wire-saving connector Pre-wired Wire-saving connector E3X-DA21R-S E3X-DA51R-S E3X-DA7R-S E3X-DA9R-S E3X-DA21F-S E3X-DA51F-S E3X-DA7F-S E3X-DA9F-S 1 input --- --- 2 outputs 1 output and 1 APC alarm output 1 output Sensing distance with E32-T11R 280 to 2,000 mm (Depends on response time) 140 to 1,000 mm (Depends on response time) 280 mm (Only Super-high-speed Mode) Sensing distance with E32-D11R 100 to 840 mm (Depends on response time) 50 to 420 mm (Depends on response time) 100 mm (Only Super-high-speed Mode) } (Margin: x 160) { { { (80 s) { (80 s) } (46 s) Performance Giga Power (GIGA RAY) High-speed response2 (fastest response time) { { { Automatic power control (APC) { } (Ultra-long-term APC) { Timer { { { ATC { { { Key lock { { { Easy key lock (switchable) --- { { APC margin display --- { --- Slow-motion display --- --- { Power tuning Function Standard models 1 * 1.2. Except for the response time, the Communications Unit Connector Models for EtherCAT and CompoNet have the same I/O, performance, and functions as the Standard, Wire-saving Connector Models. (The fastest response time of the Communications Units Connector Models is 250 s.) 2 E3X-DA-S Ratings and Specifications Amplifier Units Type Item Standard models Model Standard models Model for Communications Unit E3X-DA@-S (@: 21/51/7/9) E3X-DA0-S*1 Ultra-long-term APC models High-speed response models E3X-DA@R-S (@: 21/51/7/9) E3X-DA@F-S (@: 21/51/7/9) Light source (wavelength) Red,4-element LED (625 nm) Power supply voltage 12 to 24 VDC 10%, ripple (p-p) 10% max. Power consumption Normal mode : 960 mW max. (Current consumption: 40 mA max. at 24 VDC, 80 mA max. at 12 VDC) Power saving ECO1: 720 mW max. (Current consumption: 30 mA max. at 24 VDC, 60 mA max. at 12 VDC) Power saving ECO2: 600 mW max. (Current consumption: 25 mA max. at 24 VDC, 50 mA max. at 12 VDC) Control output / APC alarm output 1 Load power supply voltage: 26.4 VDC max.; NPN/PNP open collector; load current: 50 mA max.; residual voltage: 2 V max. External input 2 No-voltage input (contact/transistor)3 Protection circuits Power supply reverse polarity protection, output short-circuit protection and output reverse polarity protection Super-highspeed Mode 4 ReHigh-speed sponse Mode time Standard Mode Operate or reset: 80 s Operate or reset: 80 s --- --- NPN output: Operate: 46 s, Reset: 48 s PNP output: Operate: 51 s, Reset: 53 s Operate or reset: 250 s Operate or reset: 1 ms High-resolution Mode Operate or reset: 4 ms Tough Mode Operate or reset: 16 ms Sensitivity setting No-voltage input (contact/transistor)3 --- --- Teaching or manual method Power tuning Light emission power and reception gain, digital control method Differential detection Switchable between Single-edge and Double-edge Detection Modes. Single edge: Set to 250 s, 500 s, 1 ms, 10 ms, or 100 ms. Double edge: Set to 500 s, 1 ms, 2 ms, 20 ms, or 200 ms Automatic power control (APC) Always enabled. High-speed control of emission current Wide-range APC for the E3X-DA@R-S --- Select from timer disabled, OFF-delay, ON-delay, One-shot, or ON-delay + OFF-delay timer Functions Timer 1 ms to 5 s (1 to 20 ms set in 1-ms increments, 20 to 200 ms set in 10-ms increments, 200 ms to 1 s set in 100-ms increments, and 1 to 5 s set in 1-s increments) ATC Provided APC margin display --- Slow-motion display --- Zero reset Negative values can be displayed. (Threshold value is shifted.) Resetting settings Select from initial reset (factory defaults) or user reset (saved settings). Mutual interference prevention Possible for up to 10 units 5 ECO Mode 6 Select from OFF (digital display lit), ECO1 (digital display dimmed), and ECO2 (digital display OFF). External input setting 2 Select from teaching operations, power tuning, zero reset, emitter OFF, or ATC start. --- Output setting Select from output for each channel, area output, or self--diagnosis. Provided --Provided --- Operation indicator for Operation indicator for channel 1(orange) channel 1(orange) Indicator APC alarm output indicator Power tuning indicator (orange) (orange) 1. The E3X-DA0-S Amplifier Unit allows you to use an E3X-ECT EtherCAT Communications Unit or E3X-CRT CompoNet Communications Unit. 2. Only for Pre-wired models. 3. The following details apply to inputs. Operation indicator for channel 1(orange) Operation indicator for channel 2(orange) Contact input (relay or switch) Non-contact input (transistor) NPN ON: Shorted to 0 V (sourcing current: 1 mA max.). OFF: Open or shorted to Vcc. ON: 1.5 V max. (sourcing current: 1 mA max.) OFF: Vcc - 1.5 V to Vcc (leakage current: 0.1 mA max.) PNP ON: Shorted to Vcc (sinking current: 3 mA max.). OFF: Open or shorted to 0 V. ON: Vcc - 1.5 V to Vcc (sinking current: 3 mA max.) OFF: 1.5 V max. (leakage current: 0.1 mA max.) 3 E3X-DA-S 4. The communications function and mutual interference prevention function are disabled if the detection mode is set to Super-high-speed mode. 5. Mutual interference prevention is enabled if Amplifier Units are connected together. It is also enabled in the same way if E3X-DA-S-series Units and E3C-LDA-series Units are used together. If power tuning is enabled, mutual interference prevention can be used for up to six units. 6. For the standard models E3X-DA@-S (@: 21/51/7/9/0), the rated sensing distance is approximately 1/2 and the incident level is approximately 1/3 of the normal levels when ECO mode is enabled. Item E3X-DA@-S (@: 21/51/7/9) Model E3X-DA@R-S (@: 21/51/7/9) E3X-DA0-S E3X-DA@F-S (@: 21/51/7/9) Digital display Select from incident level + threshold or other 6 patterns (Refer to 6. Display switch on page 19.) Display orientation Switching between normal / reversed display is possible. Key lock Key lock Ambient illumination (Receiver side) Incandescent lamp: 10,000 lux max. Sunlight: 20,000 lux max. Maximum connectable Units 16 (The ambient temperature specification depends on the number of connected units.)7 Ambient temperature range Key lock / Easy key lock. Operating: Groups of 1 to 2 Amplifiers: -25 to 55C Groups of 3 to 10 Amplifiers: -25 to 50C Groups of 11 to 16 Amplifiers: -25 to 45C8 Storage: -30 to 70C (with no icing or condensation) Ambient humidity range Operating and storage: 35% to 85% (with no condensation) Insulation resistance 20 M min. (at 500 VDC) Dielectric strength 1,000 VAC at 50/60 Hz for 1 minute Vibration resistance (Destruction) 10 to 55 Hz with a 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions Shock resistance (Destruction) 500 m/s2 for 3 times each in 150 m/s2 for 3 times each in 500 m/s2 for 3 times each in X, Y, and Z directions X, Y, and Z directions X, Y, and Z directions Degree of protection IEC 60529 IP50 (with Protective Cover attached) Connection method Pre-wired (standard cable length: 2 m) or wire-saving connector Weight (packed state) Pre-wired Models: Approx. 100 g, Wire-saving Approx. 55 g Connector Models: Approx. 55 g Materials 10 to 150 Hz with a 0.7-mm double amplitude for 80 min each in X, Y, and Z directions Connector for Communications Unit Case Polybutylene terephthalate (PBT) Cover Polycarbonate (PC) Accessories 10 to 55 Hz with a 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions Pre-wired (standard cable length: 2 m) or wire-saving connector Pre-wired Models: Approx. 100 g, Wire-saving Connector Models: Approx. 55 g Instruction Manual 7. The maximum number of connectable Units is 30 when the E3X-ECT is used with the E3X-DA0-S. 8. The following temperature ranges apply for operation when an E3X-ECT or E3X-CRT Communications Unit is used with the E3X-DA0-S: Groups of 1 or 2 Amplifier Units: 0 to 55C, Groups of 3 to 10 Amplifier Units: 0 to 50C, Groups of 11 to 16 Amplifier Units: 0 to 45C, Groups of 17 to 30 Amplifier Units (with the E3X-ECT): 0 to 40C. Wire-saving Connectors Item Model E3X-CN12 2.5 A Rated voltage 50 V Contact resistance 20 m max. (20 mVDC max., 100 mA max.) (The figure is for connection to the Amplifier Unit and the adjacent connector. It does not include the conductor resistance of the cable.) No. of insertions Destruction: 50 times (The figure for the number of insertions is for connection to the Amplifier Unit and the adjacent connector.) Materials Housing Contacts Weight (packed state) 4 E3X-CN21/22/11 Rated current Polybutylene terephthalate (PBT) Phosphor bronze / gold-plated nickel Approx. 55 g Approx. 25 g E3X-DA-S Sensing Distance E3X-DA@-S (@: 21/51/7/9/0) E3X-DA@F-S(@: 21/51/7/9) Threaded Models Sensing method Throughbeam Sensing distance (mm) Sensing direction Size Right-angle Model Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode E32-T11N 2M M4 Straight 2,000 1,400 1,000 700 280 E32-T11R 2M Right-angle M3 E32-C31N 2M 110 80 50 46 14 M6 E32-C11N 2M 780 560 350 320 100 E32-D21R 2M 140 100 60 40 16 330 240 150 100 44 140 100 60 40 16 M3 Reflective E32-C31 2M E32-C31M 1M Straight M4 M6 E32-D211R 2M E32-D11R 2M E32-CC200 2M 840 600 350 240 100 1,400 1,000 600 400 180 Cylindrical Models Sensing method Sensing direction Size 1 dia. Throughbeam E32-T223R 2M Top-view 1.5 dia. Tough mode 450 High-resolution mode 300 Standard mode High-speed mode Super-highspeed mode 250 150 60 E32-T22B 2M 680 480 400 220 90 E32-T12R 2M 2,000 1,400 1,000 700 280 E32-T14LR 2M 750 550 450 260 100 1.5 dia. E32-D22B 2M 140 100 60 40 16 1.5 dia. + 0.5 dia. E32-D43M 1M 28 20 12 8 4 E32-D22R 2M 140 100 60 40 16 E32-D221B 2M 300 220 140 90 40 E32-D32L 2M 700 500 300 200 90 E32-D33 2M 70 50 30 20 8 3 dia. Reflective Sensing distance (mm) Model Side-view Top-view 3 dia. 3 dia. + 0.8 dia. Flat Models Sensing distance (mm) Sensing method Sensing direction Top-view E32-T15XR 2M Throughbeam Side-view E32-T15YR 2M Flat-view E32-T15ZR 2M Reflective Model Top-view E32-D15XR 2M Side-view E32-D15YR 2M Flat-view E32-D15ZR 2M Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode 2,000 1,400 1,000 700 280 750 550 450 260 100 840 600 350 240 100 200 140 100 52 24 Sleeve Models Sensing method Sensing distance (mm) Sensing direction Side-view Throughbeam Top-view Side-view Reflective Top-view Model Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode E32-T24R 2M 170 120 100 50 20 E32-T24E 2M 450 300 250 150 60 E32-T33 1M E32-TC200BR 2M 150 110 90 50 20 2,000 1,400 1,000 700 280 E32-D24R 2M 70 52 30 20 8 E32-D43M 1M 28 20 12 8 4 E32-D331 2M 14 10 6 4 2 E32-D33 2M 70 50 30 20 8 E32-DC200F4R 2M 140 100 60 40 16 E32-DC200BR 2M 840 600 350 240 100 Note: The High-speed Mode cannot be used with the E3X-DA0-S. 5 E3X-DA-S E3X-DA@-S (@: 21/51/7/9/0) E3X-DA@F-S(@: 21/51/7/9) Small-spot, Reflective Type Variable spot Spot diameter Center distance (mm) Sensing distance (mm) Model Tough mode High-resolution mode 0.1 to 0.6 dia. 6 to 5 E32-C42 1M + E39-F3A Spot diameter of 0.1 to 0.6 mm at 6 to 15 mm. 0.3 to 1.6 dia. 10 to 30 E32-C42 1M + E39-F17 Spot diameter of 0.3 to 1.6 mm at 10 to 30 mm. 0 to 20 E32-C31 2M + E39-F3C Parallel light 4 dia. Integrated lens 0.1 dia. 5 E32-C42S 1M Spot diameter of 0.1 mm at 5 mm. 6 dia. 50 E32-L15 2M Spot diameter of 6 mm at 50 mm. E32-C41 1M + E39-F3A-5 Spot diameter of 0.1 mm at 7 mm. 0.1 dia. 0.5 dia. Small-spot Standard mode 7 3 dia. E32-C31 2M + E39-F3A-5 E32-C31N 2M + E39-F3A-5 0.2 dia. 0.5 dia. E32-C31N 2M + E39-F3C E32-C41 1M + E39-F3B 17 E32-C31 2M + E39-F3B E32-C31N 2M + E39-F3B 50 E32-CC200 2M + E39-F18 E32-C11N 2M + E39-F18 High-speed mode Super-highspeed mode Spot diameter of 4 mm max. at 0 to 20 mm. Spot diameter of 0.5 mm at 7 mm. Spot diameter of 0.2 mm at 17 mm. Spot diameter of 0.5 mm at 17 mm. Spot diameter of 3 mm at 50 mm. High-power Beam Type Through-beam Integrated lens Aperture angle Top-view 10 E32-T17L 10M 20,000 *1 20,000 *1 20,000 *1 20,000 *1 8,000 Side-view 30 E32-T14 2M 4,000 *2 4,000 *2 4,000 *2 4,000 *2 1,800 12 E32-T11N 2M + E39-F1 4,000 *2 4,000 *2 4,000 *2 4,000 *2 2,000 6 E32-T11N 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 4,000 *2 3,600 12 E32-T11R 2M + E39-F1 4,000 *2 4,000 *2 4,000 *2 4,000*2 2,000 6 E32-T11R 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 4,000 *2 3,600 60 E32-T11R 2M + E39-F2 1,450 1,040 800 500 200 12 E32-T11 2M + E39-F1 4,000 *2 4,000 *2 4,000 *2 4,000 *2 1,860 6 E32-T11 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 4,000 *2 4,000 *2 Right-angle Top-view Side-view Top-view Side-view Throughbeam models with lenses Top-view Side-view Top-view Side-view Top-view Side-view Top-view Reflective Integrated lens Sensing distance (mm) Sensing direction Top-view Model Tough mode High-resolution mode High-speed mode Super-highspeed mode 60 E32-T11 2M + E39-F2 2,300 1,640 1,320 860 320 12 E32-T51R 2M + E39-F1 4,000 *2 4,000 *2 4,000 *2 3,900 1,500 4,000 *2 4,000 *2 4,000 *2 4,000 *2 4,000 *2 1,400 1,000 720 500 200 6 E32-T51R 2M + E39-F16 60 E32-T51R 2M + E39-F2 12 E32-T81R-S 2M + E39-F1 4,000 *2 4,000 *2 4,000 *2 2,700 1,000 6 E32-T81R-S 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 4,000 *2 1,800 60 E32-T81R-S 2M + E39-F2 1,000 720 550 360 140 12 E32-T61-S 2M + E39-F1 4,000 *2 4,000 *2 4,000 *2 4,000 *2 1,800 4,000 *2 4,000 *2 4,000 *2 4,000 *2 3,100 1,680 1,200 900 600 240 6 E32-T61-S 2M + E39-F16 60 E32-T61-S 2M + E39-F2 12 E32-T51 2M + E39-F1-33 4,000 *2 4,000 *2 4,000 *2 2,300 1,400 6 E32-T51 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 4,000 *2 4,000 *2 4 E32-D16 2M 40 to 2,800 40 to 2,000 40 to 1,400 40 to 900 40 to 480 *1. The fiber length is 10 m on each side, so the sensing distance is given as 20,000 mm. *2. The fiber length is 2 m on each side, so the sensing distance is given as 4,000 mm. Note: The High-speed Mode cannot be used with the E3X-DA0-S. 6 Standard mode E3X-DA-S E3X-DA@-S (@: 21/51/7/9/0) E3X-DA@F-S(@: 21/51/7/9) Narrow View Sensing method Sensing direction 1.5 Throughbeam Side-view Sensing distance (mm) Aperture angle 3.4 4 Model High-resolution mode Tough mode E32-A03 2M Standard mode High-speed mode Super-highspeed mode 3,220 2,300 1,780 1,200 500 1,280 920 680 450 200 E32-T24SR 2M 4,000 * 2,960 2,200 1,460 580 E32-T24S 2M 4,000 * 3,500 2,600 1,740 700 E32-T22S 2M 4,000 * 4,000 * 3,800 2,500 1,000 E32-A03-1 2M E32-A04 2M * The fiber length is 2 m on each side, so the sensing distance is given as 4,000 mm. Detection without Background Interference Sensing method Limitedreflective Sensing distance (mm) Sensing direction Model Tough mode High-resolution mode E32-L16-N 2M Flat-view Side-view Standard mode High-speed mode 0 to 15 Super-highspeed mode 0 to 12 E32-L24S 2M 0 to 4 E32-L25L 2M 5.4 to 9 (center 7.2) Transparent Object Detection (Retro-reflective) Sensing method Retroreflective Sensing distance (mm) Feature Size Model Film detection M3 E32-C31 2M + E39-F3R + E39-RP37 Tough mode High-resolution mode High-speed mode Super-highspeed mode 200 - High-speed mode Super-highspeed mode Standard mode 250 Square - E32-R16 2M 150 to 1,500 Threaded Models M6 E32-R21 2M 10 to 250 Transparent Object Detection (Limited-reflective) Sensing method Limitedreflective Feature Sensing distance (mm) Sensing direction Model Tough mode High-resolution mode Standard mode Small size E32- L24S 2M Standard E32-L16-N 2M 0 to 15 0 to 12 E32-A08 2M 10 to 20 - E32-A12 2M 12 to 30 - Glass substrate alignment, 70 C Flat-view Standard/ long-distance Side view form Side-view E32-L25L 2M Glass substrate mapping, 70 C Top-view 0 to 4 5.4 to 9 (center 7.2) E32-A09 2M - 15 to 38 Chemical-resistant, Oil-resistant Sensing method Type Oil-resistant Throughbeam Chemical/oilresistant Chemical/oil-resistant at 150 C Sensing direction Semiconductors: Resist stripping; 85C Tough mode Right-angle E32-T11NF 2M High-resolution mode Standard mode High-speed mode Super-highspeed mode 4,000 *1 4,000 *1 4,000 *1 4,000 *1 2,200 E32-T12F 2M 4,000 *1 4,000 *1 4,000 *1 4,000 *1 1,600 E32-T11F 2M 4,000 *1 4,000 *1 4,000 *1 2,600 1,000 Side-view E32-T14F 2M 1,400 1,000 800 500 200 4,000 *1 3,600 2,800 1,800 700 Top-view Top-view Semiconductors: Cleaning, developing, and etching; 60C Reflective Sensing distance (mm) Model Top-view E32-T51F 2M E32-L11FP 2M 8 to 20 mm from tip of lens (Recommended detection distance: 11 mm), 19 to 31 mm from center of mounting hole A (Recommended detection distance: 22 mm) E32-L11FS 2M 8 to 20 mm from tip of lens (Recommended detection distance: 11 mm), 32 to 44 mm from center of mounting hole A (Recommended detection distance: 35 mm) Chemical/oil-resistant E32-D12F 2M - *2 320 190 130 60 Chemical-resistant cable E32-D11U 2M 840 600 350 240 100 *1. The fiber length is 2 m on each side, so the sensing distance is given as 4,000 mm. *2. Even if there is no sensing object, the sensor will detect light that is reflected by the fluororesin. Note: The High-speed Mode cannot be used with the E3X-DA0-S. 7 E3X-DA-S E3X-DA@-S (@: 21/51/7/9/0) E3X-DA@F-S(@: 21/51/7/9) Bending-resistant Sensing distance (mm) Sensing method Size Model 1.5 dia. E32-T22B 2M M3 Throughbeam E32-T21 2M M4 E32-T11 2M Square E32-T25XB 2M 1.5 dia. E32-D22B 2M M3 Reflective E32-D21 2M 3 dia. E32-D221B 2M M4 E32-D21B 2M M6 Square Tough mode High-resolution mode Standard mode High-speed mode 680 480 400 2,500 1,800 500 360 140 300 Super-highspeed mode 220 90 1,350 900 360 300 170 70 100 60 40 16 220 140 90 40 E32-D11 2M 840 600 350 240 100 E32-D25XB 2M 240 170 100 60 30 Heat-resistant Sensing method Sensing distance (mm) Heat-resistant temperature Throughbeam Reflective Model Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode 100 C E32-T51R 2M 1,600 1,100 800 560 225 150 C E32-T51 2M 2,800 2,000 1,500 1,000 400 200 C E32-T81R-S 2M 1,000 720 550 360 140 350 C E32-T61-S 2M 1,680 1,200 900 600 240 100 C E32-D51R 2M 150 C E32-D51 2M 200 C E32-D81R-S 2M 300 C 280 190 80 450 320 144 420 300 180 120 54 10 to 20 - E32-A09H2 2M 20 to 30 (center 25) - E32-D61-S 2M 400 C 480 800 E32-A08H2 2M E32-D611-S 2M 350 C 670 1,120 E32-D73-S 2M 420 300 180 120 54 280 200 120 80 36 Area Beam Sensing method Type Throughbeam Area Reflective Sensing width 11 mm Array Sensing distance (mm) Model Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode E32-T16PR 2M 3,100 2,200 1,700 1,120 440 E32-T16JR 2M 2,750 2,000 1,500 960 380 4,000 * 3,400 2,600 1,700 680 700 500 300 200 90 30 mm E32-T16WR 2M 11 mm E32-D36P1 2M * The fiber length is 2 m on each side, so the sensing distance is given as 4,000 mm. Liquid-level Detection Sensing method Tube diameter 3.2/6.4/9.5 dia Tube-mounting Liquid contact (heat-resistant up to 200 C) Sensing distance (mm) Feature Model Stable residual E32-A01 5M quantity detection Standard mode High-speed mode Super-highspeed mode Applicable tube: Transparent tube with a diameter of 3.2, 6.4, or 9.5 mm, Recommended wall thickness: 1 mm 8 to 10 dia Mounting at multi levels E32-L25T 2M Applicable tube: Transparent tube with a diameter of 8 to 10 mm, Recommended wall thickness: 1 mm No restrictions Large tubes E32-D36T 2M Applicable tube: Transparent tube (no restrictions on diameter) - - E32-D82F1 4M Liquid-contact Type Note: The High-speed Mode cannot be used with the E3X-DA0-S. 8 Tough mode High-resolution mode E3X-DA-S E3X-DA@-S (@: 21/51/7/9/0) E3X-DA@F-S(@: 21/51/7/9) Vacuum-resistant Sensing method Throughbeam Sensing distance (mm) Heat-resistant temperature Model E32-T51V 1M 120 C 200 C Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode 720 520 400 260 100 E32-T51V 1M + E39-F1V 3,780 2,700 2,000 1,360 520 E32-T84SV 1M 1,760 1,250 950 640 260 FPD, Semiconductors, and Solar Cells Sensing method Application Glass presence detection Operating temperature High-speed mode Super-highspeed mode 10 to 20 - E32-A12 2M 12 to 30 - E32-A09 2M 15 to 38 - 300 C E32-A09H2 2M 20 to 30 - Wet processes: Cleaning, Resist developing and etching 60 C E32-L11FP 2M 8 to 20 mm from tip of lens (Recommended detection distance: 11 mm), 19 to 31 mm from center of mounting hole A (Recommended detection distance: 22 mm) Wet process: Resist stripping 85 C E32-L11FS 2M 8 to 20 mm from tip of lens (Recommended detection distance: 11 mm), 32 to 44 mm from center of mounting hole A (Recommended detection distance: 35 mm) 300 C Glass substrate mapping E32-L16-N 2M Standard mode 0 to 12 70 C 70 C E32-A08 2M E32-A08H2 2M E32-A03 2M E32-A03-1 2M Throughbeam Tough mode High-resolution mode 0 to 15 Glass substrate alignment Limitedreflective Sensing distance (mm) Model Wafer mapping 70 C E32-A04 2M 3,220 2,300 1,780 1,200 500 1,280 920 680 450 200 E32-T24SR 2M 4,000 * 2,960 2,200 1,460 580 E32-T24S 2M 4,000 * 3,500 2,600 1,740 700 * The fiber length is 2 m on each side, so the sensing distance is given as 4,000 mm. Note: The High-speed Mode cannot be used with the E3X-DA0-S. 9 E3X-DA-S E3X-DA@R-S (@:21/51/7/9) Threaded Models Sensing method Throughbeam Sensing distance (mm) Sensing direction Right-angle Size Right-angle Reflective Standard mode High-speed mode Super-highspeed mode 1,000 700 500 350 140 E32-T11R 2M 1,000 700 530 350 140 M3 E32-C31N 2M 55 40 25 23 7 M6 E32-C11N 2M 390 280 175 160 50 E32-D21R 2M 70 50 30 20 8 M3 E32-C31 2M 165 120 75 50 22 70 50 30 20 8 E32-C31M 1M Straight Tough mode High-resolution mode E32-T11N 2M M4 Straight Model M4 M6 E32-D211R 2M E32-D11R 2M 420 300 170 120 50 E32-CC200 2M 700 500 300 200 90 Cylindrical Models Sensing method Size Sensing direction 1 dia. Throughbeam 1.5 dia. 3 dia. Reflective Top-view Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode E32-T223R 2M 220 160 130 75 30 E32-T22B 2M 340 240 200 110 45 E32-T12R 2M 1,000 700 530 350 140 E32-T14LR 2M 370 270 210 130 50 1.5 dia. E32-D22B 2M 70 50 30 20 8 1.5 dia. + 0.5 dia. E32-D43M 1M 15 11 6 4 2 3 dia. Side-view Sensing distance (mm) Model Top-view 3 dia. + 0.8 dia. E32-D22R 2M 70 50 30 20 8 E32-D221B 2M 150 110 70 45 20 E32-D32L 2M 350 250 150 100 45 E32-D33 2M 35 25 16 10 4 Flat Models Sensing distance (mm) Sensing method Sensing direction Top-view E32-T15XR 2M Throughbeam Side-view E32-T15YR 2M Flat-view E32-T15ZR 2M Reflective Model Top-view E32-D15XR 2M Side-view E32-D15YR 2M Flat-view E32-D15ZR 2M Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode 1,000 700 530 350 140 370 270 210 130 50 420 300 170 120 50 100 70 40 26 12 Sleeve Models Sensing method Sensing distance (mm) Sensing direction Side-view Throughbeam Top-view Side-view Reflective 10 Top-view Model Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode E32-T24R 2M 85 60 50 25 E32-T24E 2M 225 150 125 75 30 75 55 45 25 10 E32-T33 1M E32-TC200BR 2M 10 1,000 700 530 350 140 E32-D24R 2M 35 26 15 10 4 E32-D43M 1M 15 11 6 4 2 E32-D331 2M 7 5 3 2 0.8 4 E32-D33 2M 35 25 16 10 E32-DC200F4R 2M 70 50 30 20 8 E32-DC200BR 2M 420 300 170 120 50 E3X-DA-S E3X-DA@R-S (@:21/51/7/9) Small-spot, Reflective Type Variable spot Spot diameter Center distance (mm) Sensing distance (mm) Model Tough mode High-resolution mode 0.1 to 0.6 dia. 6 to 15 E32-C42 1M + E39-F3A Spot diameter of 0.1 to 0.6 mm at 6 to 15 mm. 0.3 to 1.6 dia. 10 to 30 E32-C42 1M + E39-F17 Spot diameter of 0.3 to 1.6 mm at 10 to 30 mm. 0 to 20 E32-C31 2M + E39-F3C Parallel light 4 dia. Integrated lens 0.1 dia. 5 E32-C42S 1M Spot diameter of 0.1 mm at 5 mm. 6 dia. 50 E32-L15 2M Spot diameter of 6 mm at 50 mm. E32-C41 1M + E39-F3A-5 Spot diameter of 0.1 mm at 7 mm. 0.1 dia. 0.5 dia. Small-spot Standard mode 7 3 dia. E32-C31 2M + E39-F3A-5 E32-C31N 2M + E39-F3A-5 0.2 dia. 0.5 dia. E32-C31N 2M + E39-F3C E32-C41 1M + E39-F3B 17 E32-C31 2M + E39-F3B E32-C31N 2M + E39-F3B 50 E32-CC200 2M + E39-F18 E32-C11N 2M + E39-F18 High-speed mode Super-highspeed mode Spot diameter of 4 mm max. at 0 to 20 mm. Spot diameter of 0.5 mm at 7 mm. Spot diameter of 0.2 mm at 17 mm. Spot diameter of 0.5 mm at 17 mm. Spot diameter of 3 mm at 50 mm. High-power Beam Type Through-beam Integrated lens Sensing direction Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode Top-view 10 E32-T17L 10M 20,000 *1 20,000 *1 20,000 *1 10,000 4,000 30 E32-T14 2M 4,000 *2 4,000 *2 3,400 2,250 900 12 E32-T11N 2M + E39-F1 4,000 *2 4,000 *2 3,700 2,400 970 6 E32-T11N 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 4,000 *2 1,800 12 E32-T11R 2M + E39-F1 4,000 *2 4,000 *2 3,700 2,400 970 6 E32-T11R 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 4,000 *2 1,800 60 E32-T11R 2M + E39-F2 725 520 400 250 100 12 E32-T11 2M + E39-F1 4,000 *2 4,000 *2 3,600 2,300 930 6 E32-T11 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 4,000 *2 2,300 Top-view Side-view Top-view Side-view Top-view Side-view Top-view Side-view Top-view Side-view Top-view Reflective Integrated lens Sensing distance (mm) Model Side-view Right-angle Throughbeam models with lenses Aperture angle Top-view 60 E32-T11 2M + E39-F2 1,150 820 660 430 160 12 E32-T51R 2M + E39-F1 4,000 *2 3,900 2,900 1,900 760 4,000 *2 4,000 *2 4,000 *2 3,600 1,400 700 500 360 250 100 6 E32-T51R 2M + E39-F16 60 E32-T51R 2M + E39-F2 12 E32-T81R-S 2M + E39-F1 4,000 *2 2,650 2,100 1,300 520 6 E32-T81R-S 2M + E39-F16 4,000 *2 4,000 *2 3,600 2,300 900 60 E32-T81R-S 2M + E39-F2 500 360 280 180 70 12 E32-T61-S 2M + E39-F1 4,000 *2 4,000 *2 3,400 2,200 900 4,000 *2 4,000 *2 4,000 *2 3,900 1,500 840 600 450 300 120 6 E32-T61-S 2M + E39-F16 60 E32-T61-S 2M + E39-F2 12 E32-T51 2M + E39-F1-33 4,000 *2 3,400 2,660 1,150 700 6 E32-T51 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 4,000 *2 2,600 4 E32-D16 2M 40 to 1,400 40 to 1,000 40 to 700 40 to 450 40 to 240 *1. The fiber length is 10 m on each side, so the sensing distance is given as 20,000 mm. *2. The fiber length is 2 m on each side, so the sensing distance is given as 4,000 mm. 11 E3X-DA-S E3X-DA@R-S (@:21/51/7/9) Narrow View Sensing method Sensing direction 1.5 Throughbeam Side-view Sensing distance (mm) Aperture angle 3.4 4 Model Tough mode E32-A03 2M High-resolution mode Standard mode High-speed mode Super-highspeed mode 1,610 1,150 890 600 250 640 460 340 225 100 E32-T24SR 2M 2,100 1,500 1,100 750 300 E32-T24S 2M 2,400 1,750 1,300 870 350 E32-T22S 2M 3,500 2,500 1,900 1,250 500 E32-A03-1 2M E32-A04 2M Detection without Background Interference Sensing method Limitedreflective Sensing distance (mm) Sensing direction Model Tough mode E32-L16-N 2M Flat-view Side-view High-resolution mode Standard mode High-speed mode 0 to 15 Super-highspeed mode 0 to 12 E32-L24S 2M 0 to 4 E32-L25L 2M 5.4 to 9 (center 7.2) Transparent Object Detection (Retro-reflective) Sensing method Retroreflective Sensing distance (mm) Feature Size Film detection M3 Model Tough mode E32-C31 2M + E39-F3R + E39-RP37 250 High-resolution mode Standard mode 200 High-speed mode 150 Square - E32-R16 2M 150 to 1,500 Threaded Models M6 E32-R21 2M 10 to 250 Super-highspeed mode 100 50 Transparent Object Detection (Limited-reflective) Sensing method Limitedreflective Feature Sensing distance (mm) Sensing direction Model Small size E32- L24S 2M Standard E32-L16-N 2M Glass substrate alignment, 70 C Flat-view Standard/ long-distance Tough mode High-resolution mode Standard mode 0 to 12 10 to 20 E32-A12 2M 12 to 30 Side view form Side-view E32-L25L 2M Top-view Super-highspeed mode 0 to 4 0 to 15 E32-A08 2M Glass substrate mapping, 70 C High-speed mode 5.4 to 9 (center 7.2) E32-A09 2M 15 to 38 Chemical-resistant, Oil-resistant Sensing method Type Oil-resistant Throughbeam Chemical/oilresistant Chemical/oil-resistant at 150 C Sensing direction Right-angle E32-T11NF 2M Semiconductors: Resist stripping; 85C Tough mode High-resolution mode High-speed mode Super-highspeed mode 4,000 *1 4,000 *1 4,000 *1 3,100 1,200 4,000 *1 4,000 *1 3,000 2,000 800 E32-T11F 2M 3,500 2,500 2,000 1,300 520 Side-view E32-T14F 2M 700 500 400 250 100 2,500 1,800 1,400 900 350 Top-view Top-view Top-view E32-T51F 2M E32-L11FP 2M 8 to 20 mm from tip of lens (Recommended detection distance: 11 mm), 19 to 31 mm from center of mounting hole A (Recommended detection distance: 22 mm) E32-L11FS 2M 8 to 20 mm from tip of lens (Recommended detection distance: 11 mm), 32 to 44 mm from center of mounting hole A (Recommended detection distance: 35 mm) Chemical/oil-resistant E32-D12F 2M - *2 160 95 65 30 Chemical-resistant cable E32-D11U 2M 420 300 170 120 50 *1. The fiber length is 2 m on each side, so the sensing distance is given as 4,000 mm. *2. Even if there is no sensing object, the sensor will detect light that is reflected by the fluororesin. 12 Standard mode E32-T12F 2M Semiconductors: Cleaning, developing, and etching; 60C Reflective Sensing distance (mm) Model E3X-DA-S E3X-DA@R-S (@:21/51/7/9) Bending-resistant Sensing distance (mm) Sensing method Size Model 1.5 dia. E32-T22B 2M M3 Throughbeam E32-T21 2M M4 E32-T11 2M Square E32-T25XB 2M 1.5 dia. E32-D22B 2M M3 Reflective E32-D21 2M Tough mode High-resolution mode 340 240 Standard mode High-speed mode Super-highspeed mode 200 110 45 1,250 900 680 450 180 250 180 150 85 35 70 50 30 20 8 150 110 70 45 20 3 dia. E32-D221B 2M M4 E32-D21B 2M M6 E32-D11 2M 420 300 170 120 50 E32-D25XB 2M 120 85 50 30 15 Square Heat-resistant Sensing method Sensing distance (mm) Heat-resistant temperature Throughbeam Reflective Model Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode 100 C E32-T51R 2M 150 C E32-T51 2M 200 C E32-T81R-S 2M 500 360 280 180 70 350 C E32-T61-S 2M 840 600 450 300 120 100 C E32-D51R 2M 330 240 135 95 40 150 C E32-D51 2M 560 400 230 160 72 200 C E32-D81R-S 2M 210 150 90 60 27 300 C 425 280 110 760 500 200 10 to 20 E32-A09H2 2M 20 to 30 (center 25) E32-D61-S 2M 400 C 560 1,000 E32-A08H2 2M E32-D611-S 2M 350 C 800 1,400 E32-D73-S 2M 210 150 90 60 27 140 100 60 40 18 Area Beam Sensing method Type Throughbeam Area Reflective Sensing width Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode E32-T16PR 2M 1,550 1,100 840 560 E32-T16JR 2M 1,370 980 750 480 190 30 mm E32-T16WR 2M 2,000 1,700 1,300 850 340 11 mm E32-D36P1 2M 350 250 150 100 45 11 mm Array Sensing distance (mm) Model 220 Liquid-level Detection Sensing method Tube diameter 3.2/6.4/9.5 dia Tube-mounting Liquid contact (heat-resistant up to 200 C) Sensing distance (mm) Feature Model Stable residual E32-A01 5M quantity detection Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode Applicable tube: Transparent tube with a diameter of 3.2, 6.4, or 9.5 mm, Recommended wall thickness: 1 mm 8 to 10 dia Mounting at multi levels E32-L25T 2M Applicable tube: Transparent tube with a diameter of 8 to 10 mm, Recommended wall thickness: 1 mm No restrictions Large tubes E32-D36T 2M Applicable tube: Transparent tube (no restrictions on diameter) - - E32-D82F1 4M Liquid-contact Type 13 E3X-DA-S E3X-DA@R-S (@:21/51/7/9) Vacuum-resistant Sensing method Throughbeam Sensing distance (mm) Heat-resistant temperature Model E32-T51V 1M 120 C E32-T51V 1M + E39-F1V 200 C E32-T84SV 1M Tough mode High-resolution mode Standard mode High-speed mode Super-highspeed mode 360 260 200 130 50 1,890 1,350 1,000 680 260 880 630 480 320 130 FPD, Semiconductors, and Solar Cells Sensing method Application Glass presence detection Glass substrate alignment Operating temperature 70 C 300 C 70 C Limitedreflective Glass substrate mapping Sensing distance (mm) Model E32-L16-N 2M High-speed mode 0 to 15 Super-highspeed mode 0 to 12 10 to 20 E32-A08H2 2M E32-A12 2M 12 to 30 E32-A09 2M 15 to 38 300 C E32-A09H2 2M 20 to 30 (center 25) Wet processes: Cleaning, Resist developing and etching 60 C E32-L11FP 2M 8 to 20 mm from tip of lens (Recommended detection distance: 11 mm), 19 to 31 mm from center of mounting hole A (Recommended detection distance: 22 mm) Wet process: Resist stripping 85 C E32-L11FS 2M 8 to 20 mm from tip of lens (Recommended detection distance: 11 mm), 32 to 44 mm from center of mounting hole A (Recommended detection distance: 35 mm) E32-A03-1 2M 14 Standard mode E32-A08 2M E32-A03 2M Throughbeam Tough mode High-resolution mode Wafer mapping 70 C E32-A04 2M 1,610 1,150 890 600 250 640 460 340 225 100 E32-T24SR 2M 2,100 1,500 1,100 750 300 E32-T24S 2M 2,400 1,750 1,300 870 350 E3X-DA-S I/O Circuit Diagrams NPN Output Model Operation mode Timing charts Light-ON ch1/ Incident light ch2 No incident light Operation indicator ON (orange) OFF ON Output transistor OFF Operate Load (e.g., relay) Reset (Between brown and black (orange) leads) E3X-DA21-S E3X-DA21R-S E3X-DA21F-S Operation selector ch1/ Incident light ch2 No incident light Operation indicator ON (orange) OFF ON Output transistor OFF Operate Load (e.g., relay) Reset (Between brown and black (orange) leads) Dark-ON E3X-DA21-S ch1/ Incident light ch2 No incident light Operation indicator ON (orange) OFF ON Output transistor OFF Operate Load (e.g., relay) Reset (Between brown and black (orange) leads) DARK ON (D-ON) Operation mode Timing charts Operation selector Light-ON ch1/ Incident light ch2 No incident light Operation indicator ON (orange) OFF ON Output transistor OFF Operate Load (e.g., relay) Reset (Between blue and black (orange) leads) Dark-ON Operation indicator (orange) ch1 Brown Load Black Control output Load Orange ch1 Photoelectric Sensor main circuit Control output ch2 1 Pink 12 to 24 VDC External input 2 Blue DARK ON (D-ON) LIGHT ON (L-ON) E3X-DA7-S E3X-DA7R-S E3X-DA7F-S Operation indicator (orange) ch2 Display LIGHT ON (L-ON) ch1/ Incident light ch2 No incident light Operation indicator ON (orange) OFF ON Output transistor OFF Operate Load (e.g., relay) Reset (Between brown and black (orange) leads) Light-ON Output circuit 1. For the E3X-DA21R-S, this is the APC alarm output. This output does not exist on the E3X-DA21F-S. 2. This input does not exist the E3X-DA21F-S. E3X-DA7-S Operation indicator (orange) ch2 Display Operation indicator (orange) ch1 Brown Load Black Control output Load Orange ch1 Control output ch2 Photoelectric Sensor main circuit 12 to 24 VDC Blue For the E3X-DA7R-S, this is the APC alarm output. This output does not exist on the E3X-DA7F-S. PNP Output Model E3X-DA51-S E3X-DA51R-S E3X-DA51F-S Dark-ON Light-ON E3X-DA9-S E3X-DA9R-S E3X-DA9F-S Dark-ON ch1/ Incident light ch2 No incident light Operation indicator ON (orange) OFF ON Output transistor OFF Operate Load (e.g., relay) Reset (Between blue and black (orange) leads) ch1/ Incident light ch2 No incident light Operation indicator ON (orange) OFF ON Output transistor OFF Operate Load (e.g., relay) Reset (Between blue and black (orange) leads) ch1/ Incident light ch2 No incident light Operation indicator ON (orange) OFF ON Output transistor OFF Operate Load (e.g., relay) Reset (Between blue and black (orange) leads) Output circuit E3X-DA51-S Operation indicator (orange) ch2 Display LIGHT ON (L-ON) Brown Operation indicator (orange) ch1 External input 2 Pink Control output ch1 Black Photoelectric Sensor main circuit Control output Blue DARK ON (D-ON) 12 to 24 VDC Orange ch2 1 Load Load 1. For the E3X-DA51R-S, this is the APC alarm output. This output does not exist on the E3X-DA51F-S. 2. This input does not exist the E3X-DA51F-S. E3X-DA9-S Operation indicator (orange) ch2 Display LIGHT ON (L-ON) Operation indicator (orange) ch1 Brown Photoelectric Sensor main circuit Control output ch1 Black Control output Orange ch2 Load Blue 12 to 24 VDC Load DARK ON (D-ON) For the E3X-DA9R-S, this is the APC alarm output. This output does not exist on the E3X-DA9F-S. Note: 1. Operation with area settings is as follows: LIGHT ON: ON when the incident level is between the thresholds for channels 1 and 2. DARK ON: OFF when the incident level is between the thresholds for channels 1 and 2. 2. Timing Charts for Timer Settings (T: Set Time) ON delay OFF delay One-shot ON delay and OFF delay Incident light Incident light Incident light Incident light No incident light No incident light No incident light No incident light L-ON OFF D-ON T ON ON OFF L-ON OFF T D-ON T ON ON OFF L-ON OFF T D-ON T ON ON OFF L-ON OFF T D-ON T1 T2 T2 T1 ON T1: ON-delay set time T2: OFF-delay set time T1 and T2 can be set separately. ON OFF 15 E3X-DA-S Nomenclature Amplifier Units E3X-DA@-S (@: 21/51/7/9/0) Main Display (Red) Sub-Display (Green) Incident level, function, etc. Threshold, function settings, etc. Operation Keys Function setting operations Lock lever Locks the fiber. Operation Indicator (ch1) (orange) Operation Indicator (ch2) (orange) ON when output is ON. ON when output is ON. OFF when output is OFF. OFF when output is OFF. UP DOWN MODE Channel Selector Note: Nomenclature and operating procedures for the E3XDA@R-S and E3X-DA@F-S (@: 21/51/7/9) are given on pages 19 and 20. Use to select the channel to display and set. Mode Selector Use to select SET or RUN Mode. Operating Procedure 1 Setting the Operation Mode To restore the default power setting: The operation mode is set in SET Mode. Refer to 5. Setting Functions on page 18. MODE Press the DOWN Key right after pressing the MODE Key. Set the Channel Selector Switch to the desired channel before making any adjustments or settings. 2 DOWN PTUN OFF Incident level Threshold Press both for 3 s. "OFF" will flash twice. Adjusting the Power (RUN Mode) The current incident light level can be adjusted near the power tuning target value (default: 2,000). This restores the default setting. Confirm that the MODE Key setting is PTUN (power tuning). The default setting is PTUN. Refer to 5. Setting Functions on page 18. Setting Errors An error has occurred if one of the following displays appears after the progress bar is displayed. If power tuning is executed while SHS is selected for the detection function, the minimum power will be set. Display Flashes twice Set the SET/RUN Mode Selector Switch to RUN. Incident level Threshold (default) PTUN RUN OVER (Factory-set to RUN) Flashes twice MODE 3s PTUN 3 Display changes after specific time. Incident level BOTM Action The power will not be tuned. The power can be increased up to approximately 5 times the incident light value. Bottom Error The incident light level is too high for the power tuning target value. The power will be turned to the minimum level. The power can be decreased down to approximately 1/20th the incident light value. Setting Thresholds Manually (RUN Mode) A threshold can be set manually. A threshold can also be adjusted manually after teaching to fine-tune it. Power tuning target value This completes the adjustment. PTUN Error Over Error The incident light level is too low for the power tuning target value. Progress bar Release the key after the progress bar is displayed. Set the Mode Selector Switch to RUN. Threshold Light level Threshold (default) RUN (Factory-set to RUN) UP Increases threshold. DOWN Decreases threshold. Even if the display method is changed, the threshold will appear on the sub-display when the key is pressed. 16 E3X-DA-S 4 Teaching the Threshold (SET Mode) There are five methods that can be used for teaching, as described below. Use the method most suitable for the application. Two-point teaching, positioning teaching, and automatic teaching can be performed in RUN Mode. For operating procedures, refer to the Instruction Manual provided with the product. An error has occurred if OVER or LO is displayed on the sub-display. If that occurs, repeat the operation from the beginning. 4-1. Setting the Threshold at Maximum Sensitivity The threshold can be set to the maximum sensitivity. This is useful when the longest detection distance is required. Set the SET/RUN Mode Selector Switch to SET. Incident level Refer to 5. Setting Functions on page 18. Set the SET/RUN Mode Selector Switch to SET. Incident level Threshold SET UP DOWN With no workpiece: TECH Press either for 1 s. ---- "----" will be displayed. UP Press either for 3 s. DOWN With no workpiece: FULL UP DOWN Press either for 3 s. Threshold The threshold that was set will flash twice. RFCT Threshold Incident level Threshold The threshold that was set will flash twice. Incident level Set the SET/RUN Mode Selector Switch to RUN to complete the setting procedure. Threshold 4-2. Teaching a Through-beam Fiber Unit without a Workpiece You can set the threshold to below the incident light level without a workpiece by the percentage set for the teaching level. Refer to 5. Setting Functions on page 18. Set the SET/RUN Mode Selector Switch to SET. You can set the threshold to above the incident light level without a workpiece by the percentage set for the teaching level. Threshold SET Set the SET/RUN Mode Selector Switch to RUN to complete the setting procedure. 4-3. Teaching a Reflective Fiber Unit without a Workpiece Incident level 4-4. Two-point Teaching 4-5. Positioning Teaching Two points in the following figures are detected, and the intermediate point of the light levels for the two points is set as the threshold. Set the SET/RUN Mode Selector Switch to SET. Threshold Incident level Threshold SET SET UP Press either for 1 s. DOWN With no workpiece: TECH ---- "----" will be displayed. With a workpiece: For positioning teaching, place the workpiece where you want to position it. UP DOWN Press either for 1 s. Workpiece TECH ---- "----" will be displayed. RUN To RUN THRU Threshold The threshold that was set will flash twice. Incident level This completes the setting procedure. Threshold With no workpiece: For positioning teaching, place the workpiece where you want to position it. UP DOWN 2PNT Threshold Incident level Threshold Press either for 1 s. The threshold that was set will flash twice. Set the SET/RUN Mode Selector Switch to RUN to complete the setting procedure. 17 E3X-DA-S 5 Setting Functions (SET Mode) Moving between Functions Refer to 4. Teaching the Threshold on page 17. 0. Operation mode Teaching Set the SET/RUN Mode Selector Switch to SET. The function transition boxes show the default settings. More functions may be displayed depending on the detailed settings. 1. Detection (To change response speed and detection precision) (To set the operation mode) 2. Timer (To use the timer setting) 3. Teaching level (To change the teaching level) SET 4. ATC setting 11. External input memory MODE (Refer to the Instruction Manual provided with the sensor.) 10. External input (To change functions controlled using the external input) When the settings have been completed 9. Output setting 8. ECO Mode (To change outputs for channel 2) (To set the ECO Mode) (To change the ATC setting) 7. Display orientation (To reverse the orientation of the display.) 6. Display switch 5. MODE Key (To change the display method) (To change the function of the MODE Key during operation) Set the SET/RUN Mode Selector Switch to RUN. RUN Functions UP DOWN Use the UP and DOWN Keys to change the settings. Function Setting (display) 0. Operation mode Light ON: 1. Detection Super-high-speed: High-resolution: Description Refer to 1. Setting the Operation Mode on page 16. , Dark ON: , High-speed: , Standard: , , Tough: , Differential operation: Used to change the response speed or detection precision. Differential edge (differential operation selected) Single edge: Differential time Single edge***250 s: , 500 s: , 1 ms: , 10 ms: , 100 ms: , Double edge***500 s: , 1 ms: , 2 ms: , 20 ms: , 200 ms: Used to set the differential response time. Timer disabled: , OFF-delay timer: ON-delay timer: , One-shot timer: ON-delay + OFF-delay timer: Used to enable or disable timers. 2. Timer Time (timer enabled) Setting range: 4. ATC setting ATC enabled: 5. MODE Key Power tuning target value (performing power tuning) Used to set the edge to be detected. , 1 to 20 ms: 1-ms increments, 20 to 200 ms: 10-ms increments, Used to change timer settings when timers are enabled. 200 ms to 1 s: 100-ms increments, 1 to 5 s: 1-s increments The timer can be set from 1 to 5,000 ms. 3. Teaching level Setting at Power-ON (ATC ON) , Double edge: Used to change the threshold setting when teaching a Through-beam Fiber Unit without a workpiece or teaching a Reflective Fiber Unit without a workpiece. to Used to enable or disable the ATC function. , ATC disabled: No setting: , ATC start processing: Power tuning and ATC start processing: Executes power tuning: Executes a zero reset: Automatic teaching: Used to set the processing to be performed when the power is turned ON. , , , Two-point teaching: , ATC start: Setting range: 100 to 3,900 (increments of 100) Maximum power : , Used to change the function of the MODE Key during RUN operation. Used to set target values during power tuning. Refer to 2. Adjusting the Power on page 16. The detection settings and MODE Key settings are the same for channel 1 and channel 2. Other functions can be set separately for each channel. 18 E3X-DA-S Function 6. Display switch Setting (display) Description Incident level Threshold Used to display the incident light level and the threshold. % incident level Threshold Used to display the incident light level as a percentage of the threshold and the threshold. PEAK BOTM L-PE D-BT Used to display the peak and bottom levels of incident light within a set time. (Updated every 2 s.) Fixed interval Use to display the incident light peak level and no incident light bottom level. (Refreshed when output turns ON or OFF.) Analog bar display. The current detection status is displayed as an analog bar. The bar will lengthen from the right as ON status is reached. (ON: Red, OFF: Green) Detection status Current incident level PEAK Fixed interval Current incident Peak incident level level Used to display the incident light level and the channel (unit number). Incident level Channel (unit number) 7. Display orientation Normal display: , Up/down reversed display: 8. ECO Mode Lit digital display: OFF: , Dimmed digital display: 9. Output setting Each channel: , Output when the incident light level is between two thresholds: Self-diagnosis output: 10. External input Through-beam, no-workpiece teaching: , Reflective, no-workpiece teaching: , Two-point teaching: , Automatic teaching: Power tuning: , Zero reset: , Light OFF: , ATC start: 11. External input memory Write results to EEPROM: , Do not write results to EEPROM: Used to display the current incident light level and the peak incident light level. Display changes at a fixed interval. Used to reverse the orientation of the display. , Used to enable or disable the ECO mode. , , Used to change the output details for channel 2. This setting will be disabled if the detection function is set to DIFF (i.e., differential operation) and the output will be used for an alarm output. Used to change the functions to be controlled using the external input. (Refer to the Instruction Manual provided with the sensor.) Used to set writing the results. (Refer to Instruction Manual provided with the product.) 19 E3X-DA-S 6 Convenient Functions 6-1. Setting the Digital Display to Zero (Zero Reset) 6-3. Resetting Settings (Initial Reset or User Reset) The incident light level on the main display can be set to 0. The incident light level and the threshold will both be shifted. This is useful when you want to set the reference display to zero. All settings can be returned to the factory defaults or to user-saved settings. Set the SET/RUN Mode Selector Switch to SET. DOWN SET Change the function to 0RST (zero reset) with the MODE Key. The default setting is PTUN. Refer to 5. Setting Functions on page 18. RST Set the SET/RUN Mode Selector Switch to RUN. UP INIT RST MODE UP Press both for 5 s. USER DOWN 3s RUN MODE MODE Factory setting To return to original value for incident light level: USER YES? USER NO? 1 Set the SET/RUN Mode Selector Switch to RUN. DOWN MODE RUN Press both for 3 s. UP MODE DOWN MODE Factory setting Perform user reset. 6-2. Locking the Keys (Key Lock) Operation canceled. (The steps within the dotted lines can be used if settings have been saved by the user.) All key operations can be disabled. 2 Set the SET/RUN Mode Selector Switch to RUN. UP MODE RUN Press both for 3 s. INIT NO? INIT YES? Factory setting LOC ON UP MODE "LOC ON" will flash twice and key operations will be disabled. DOWN Operation canceled. MODE Settings initialized. To release the lock: Set the SET/RUN Mode Selector Switch to RUN. UP 2 MODE RUN Press both for 3 s. Saving User Settings The current settings can be saved. Set the SET/RUN Mode Selector Switch to SET. Factory setting UP SET LOC Press both for 5 s. OFF "LOC OFF" will flash twice and key operations will be enabled. If a key is pressed while key operations are locked, "LOC ON" will flash twice on the display to indicate that key operations have been disabled. 1. Press the DOWN Key right after pressing the MODE Key. 2. Press the UP Key right after pressing the MODE Key. 20 MODE SAVE YES? MODE SAVE UP DOWN The current settings are saved. NO? MODE Operation canceled. E3X-DA-S Nomenclature Amplifier Units E3X-DA@R-S (@: 21/51/7/9) Main Display (Red) Sub-Display (Green) Incident level, function, etc. Threshold, function settings, etc. Operation Keys Lock lever Function setting operations Locks the fiber. Operation Indicator (orange) APC alarm output indicator (orange) ON when output is ON. OFF when output is OFF. ON when output is ON. OFF when output is OFF. UP DOWN MODE Easy key lock Selector Select to lock or unlock settings. Mode Selector Use to select SET or RUN Mode. Operating Procedure Basic operating procedures are as given on pages 14 to 18. For details, refer to the Instruction Manual provided with the product. This section shows functions specific to the E3X-DA@R-S. 1 Locking the Keys (Easy Key Lock) Before shipment, all key operation except for the MODE Keys can be disabled. Set the SET/RUN Mode Selector Switch to RUN. Margin APC Margin APC Margin APC Initial status Set the Easy Key Lock Selector Switch to Locked . Locked APC margin displayed in decrements of 10% RUN (Factory-set to RUN) Note: Do not switch the lock while in SET Mode. Doing so will disable changing settings. If the lock is switched to in SET Mode, return to the unlock state, and then make the setting again. Unlocking Set the SET/RUN Mode Selector Switch to RUN. Set the Easy Key Lock Selector Switch to Unlocked . APC margin of less than 10% Unlocked The display switches every second. ALAT APC Margin APC RUN (Factory-set to RUN) 2 Displaying the APC Margin Displaying the APC margin can be useful for planning maintenance. When the APC margin is 0%, APC alarm output will turn ON, and the APC alarm output indicator will light regardless of the operation of the APC margin display. Set the SET/RUN Mode Selector Switch to RUN. The display switches every 0.5 s. END APC Set the Easy Key Lock Selector Switch to Locked . Locked RUN Press the MODE Key or press nothing for 10 s. (Factory-set to RUN) Press the MODE Key to display the following for 10 s. APC margin is 0%. MODE MODE The display will return to the normal display. Incident level Threshold 21 E3X-DA-S Nomenclature Amplifier Units E3X-DA@F-S (@: 21/51/7/9) Main Display (Red) Sub-Display (Green) Incident level, function, etc. Threshold, function settings, etc. Operation Keys Lock lever Function setting operations Locks the fiber Operation Indicator (orange) UP DOWN MODE Easy key lock Selector Power tuning indicator (orange) Select to lock or unlock settings. ON when setting is ON. ON when output is ON. OFF when output is OFF. OFF when setting is OFF. Mode Selector Use to select SET or RUN Mode. Operating Procedure Basic operating procedures are as given on pages 14 to 18. For details, refer to the Instruction Manual provided with the product. This section shows functions specific to the E3X-DA@F-S. 1 Locking the Keys (Easy Key Lock) Before shipment, all key operation except for the MODE Keys can be disabled. A STAT "STAT" will be displayed and the slow-motion display will start. Set the Easy Key Lock Selector Switch to Locked . Set the SET/RUN Mode Selector Switch to RUN. "A" is displayed when the output is ON or until approximately 10 s has elapsed. (Key operations will not be accepted in the status.) Locked RUN (Factory-set to RUN) Note: Do not switch the lock while in SET Mode. Doing so will disable changing settings. If the lock is switched to in SET Mode, return to the unlock state, and then make the setting again. Unlocking Set the Easy Key Lock Selector Switch to Unlocked . Set the SET/RUN Mode Selector Switch to RUN. The incident level in intervals of 17 s will be displayed for approximately 20 s every 160 ms (between 0.5 ms before ON to 1.5 ms after ON). Incident level Threshold Incident level Threshold Incident level Threshold Unlocked RUN (Factory-set to RUN) 2 Displaying the Change of the incident level Press the MODE Key, or wait for the slow-motion display to end. Changes of the incident level for high-speed workpiece detection can be displayed. This enables checking the margin level of light received and the workpiece ON time in slow motion. Set the Easy Key Lock Selector Switch to Locked . Set the SET/RUN Mode Selector Switch to RUN. The output ON time will be displayed. MODE Output ON time Unit: s Locked RUN (Factory-set to RUN) END Incident level END will be displayed. Threshold Turn OFF the output or convey the workpieces. Incident level Press the MODE key. Error Display 22 The following will be displayed if the ON time exceeds 1,500 s. OVER US Threshold The display will return to the normal display. MODE The following will be displayed if the change in the light amount is low. NON DETC This may also be displayed when detecting a workpiece with a small change in light amount or a slow workpiece of 1,500 s or longer. E3X-DA-S Safety Precautions To ensure safe operation, be sure to read and follow the Instruction Manual provided with the sensor. WARNING This product is not designed or rated for ensuring safety of persons either directly or indirectly. Do not use it for such purposes. Mounting Connecting and Disconnecting Wire-saving Connectors Mounting Connectors 1. Insert the Master or Slave connector into the Amplifier Unit until it clicks into place. CAUTION Do not use the sensor with voltage in excess of the rated voltage. Excess voltage may result in malfunction or fire. Insert 2. Attach the protective seals (provided as accessories) to the sides of master and slave connectors that are not connected. Never use the sensor with an AC power supply. Otherwise, explosion may result. Precautions for Safe Use The following precautions must be observed to ensure safe operation of the sensor. 1. Do not use the sensor in an environment where explosive or flammable gas is present. 2. Do not use the sensor in a location subject to splattering with water, streams, oils, or chemicals. 3. Do not attempt to disassemble, repair, or modify the sensor. 4. Do not apply voltages or currents that exceed the rated range to the sensor. 5. Do not use the sensor in an ambient atmosphere or environment that exceeds the ratings. 6. Wire the power supply correctly, including the polarity. 7. Connect the load correctly. 8. Do not short-circuit the load at both ends. 9. Do not use the sensor if the case is damaged. 10.Dispose of the sensor as industrial waste. 11.Do not use the sensor in locations subject to direct sunlight. Precautions for Correct Use Seal Note: Attach the seals to the sides with grooves. Removing Connectors 1. Slide the slave Amplifier Unit away from the other unit. 2. After the Amplifier Unit has been separated, press down on the lever on the connector and remove it. (Do not attempt to remove a connector without first separating the Amplifier Unit from the other Units.) Press down Lever Remove Adding and Removing Amplifier Units Adding Amplifier Units 1. Mount the Amplifier Units one at a time onto the DIN track. Do not use the product in atmospheres or environments that exceed product ratings. Amplifier Unit Designing Operation after Turning Power ON The sensor is ready to detect within 200 ms after the power supply is turned ON. If the sensor and load are connected to separate power supplies, be sure to turn ON the sensor first. Time may be required for the incident level to stabilize after the power supply is turned ON. 2. Slide the Amplifier Units together, line up the clips, and press the Amplifier Units together until they click into place. Click into place Operation at Power OFF A pulse may be output when the power supply is turned OFF. Turn OFF the power supply to the load or the load line before turning OFF the power supply to the sensor. Mutual Interference Protection Function Mutual interference prevention is enabled if Amplifier Units are connected together. It is also enabled in the same way if E3X-DA-Sseries Units and E3C-LDA-series Units are used together. Removing Amplifier Units Slide Amplifier Units away from each other, and remove from the DIN track one at a time. (Do not attempt to remove Amplifier Units from the DIN track without separating them first.) Note: 1. The specifications for ambient temperature will vary according to the number of Amplifier Units used together. For details, refer to Ambient temperature range on page 4. 2. Always turn OFF the power supply before joining or separating Amplifier Units. 23 E3X-DA-S Mounting the End Plate (PFP-M) Use an End Plate if the Amplifier Unit might move due to vibration. Protective cover Locked Unlocked End Plate Fiber Connection The E3X Amplifier Unit has a lock lever for easy connection of the Fiber Unit. Connect or disconnect the fibers using the following procedures: 1. Connecting Fibers Open the protective cover, insert the fibers according to the fiber insertion marks on the side of the Amplifier Unit, and lower the lock lever. Protective cover Lock lever Unlocked Locked Insertion position Note: 1. To maintain the fiber properties, confirm that the lock is released before removing the fibers. 2. Be sure to lock or unlock the lock lever within an ambient temperature range between -10C and 40C. Adjusting Mutual Interference Protection Function The values that appear on the digital display may fluctuate somewhat due to light from other sensors. If this occurs, you can stabilize detection by setting a threshold that is close to half way between the incident levels with and without a sensing object. Output Short-circuits Protection OVER/CUR will flash on the display if the output short-circuit protection function operates due to a load short-circuit in a control output. If this occurs, check the load connections. EEPROM Writing Error Fiber insertion mark Fiber 9 mm Note: Do not pull on the fiber, apply pressure on it, or otherwise subject it to excessive force when it is attached to the Amplifier Unit. (Use a force of 0.3 N*m max.) Note: If one of the fibers from the Fiber Unit is labeled as the Emitter fiber, such as with a Coaxial Sensor, insert that fiber into the Emitter section. Refer to Dimensions for the Fiber Unit to see if there is an Emitter fiber label. Fibers with E39-F9 Attachment If the data is not written to the EEPROM correctly due to a power failure or static-electric noise, initialize the settings with the keys on the Amplifier Unit. ERR/EEP will flash on the display when a writing error has occurred. Optical Communications Several Amplifier Units can be slid together and used in groups. Do not, however, slide the Amplifier Units or attempt to remove any of the Amplifier Units during operation. Others Protective Cover Always keep the protective cover in place when using the Amplifier Unit. Mobile Console The E3X-MC11-SV2 Mobile Console does not currently support the new Tough Mode and ON-delay + OFF-delay timer. You also cannot use the E3X-MC-S. Fiber Unit 9 mm 13 mm Fibers That Cannot Be Free-Cut (with Sleeves) 9 mm 13 mm 2. Disconnecting Fibers Remove the protective cover and raise the lock lever to pull out the fibers. 24 Communications Unit Using CompoNet Use the E3X-CRT Communications Unit. To connect this Communications Unit, you must use the E3X-DA0-S Amplifier Unit. Using EtherCAT Use the E3X-ECT Communications Unit. To connect this Communications Unit, you must use the E3X-DA0-S Amplifier Unit. Using DeviceNet Use the E3X-DRT21-S Version 3 Communications Unit. To connect this Communications Unit, you must use the E3X-DA7-S or E3X-DA9-S Amplifier Unit. E3X-DA-S (Unit: mm) Dimensions Tolerance class IT16 applies to dimensions in this data sheet unless otherwise specified. Amplifier Units Pre-wired Models E3X-DA21-S E3X-DA51-S E3X-DA21R-S E3X-DA51R-S E3X-DA21F-S E3X-DA51F-S Digital Display Area 1. The indicators are as follows: Indicator 1 15.6 35.25 10 6.3 Operation indicator (1ch) Main display Sub-display E3X-DA21-S E3X-DA51-S Operation indicator (2 ch) E3X-DA21R-S E3X-DA51R-S APC alarm output indicator E3X-DA21F-S E3X-DA51F-S Power tuning indicator DIN track mounting 4.3 141.1 180 101.45 Vinyl-insulated round cable Standard length: 2 m 2 32 (9) 4.5 Multiple connection diagram 12.5 5.65 3.4 End Plate (sold separately) PFP-M L Two, 2.4 dia. Hole for optical communications 18.7 (36.2) (21.3) 70 Center of DIN track DIN track (sold separately) PFP-@N 10 The number of expansion 1 2 3 4 5 6 7 8 9 10 Fiber Attachment mounted (E39-F9) 10 With Mounting Bracket Attached 4.3 10 L (mm) 10 20 30 40 50 60 70 80 90 100 141.1 180 101.45 Vinyl-insulated round cable Standard length: 2 m 2 32 (9) 4.5 12.5 5.65 3.4 Two, 2.4 dia. 10.3 Two, 3.2 dia. Holes 18.7 Hole for optical communications 4.3 (9.4) 16 70 Mounting Bracket (E39-L143) SUS304 stainless steel (sold separately) Mounting Holes 3.4 2-M3 4.4 16 28.1 16 Fiber Attachment mounted (E39-F9) Note: When using E39-L143 Mounting Brackets, there will be small gaps between the Amplifier Units if they are mounted side by side. 2. The cable specifications are as follows: E3X-DA21-S E3X-DA51-S E3X-DA21R-S E3X-DA51R-S 4 dia. cable / 5 conductors (Conductor cross section: 0.2 mm2, Insulator diameter: 1.1 mm) E3X-DA21F-S E3X-DA51F-S 4 dia. cable / 3 conductors (Conductor cross section: 0.2 mm2, Insulator diameter: 1.1 mm) 25 E3X-DA-S Wire-saving Connector Models E3X-DA7-S E3X-DA9-S E3X-DA7R-S E3X-DA9R-S 10 E3X-DA7F-S E3X-DA9F-S 1. The indicators are as follows: Digital Display Area Indicator 1 15.6 35.25 6.3 Operation indicator (1ch) Main display Sub-display E3X-DA7-S E3X-DA9-S Operation indicator (2 ch) E3X-DA7R-S E3X-DA9R-S APC alarm output indicator E3X-DA7F-S E3X-DA9F-S Power tuning indicator DIN track mounting 4.3 141.1 8.1 180 101.45 Dia. A 2 32 (9) 4.5 12.95 5.65 3.4 Two, 2.4 dia. Hole for optical communications 18.7 (36.2) Multiple connection diagram (21.3) 70 End Plate (sold separately) PFP-M L Center of DIN track DIN track (sold separately) PFP-@N 10 10 The number of expansion 1 2 3 4 5 6 7 8 9 10 Fiber Attachment mounted (E39-F9) 10 With Mounting Bracket Attached L (mm) 10 20 30 40 50 60 70 80 90 100 4.3 141.1 8.1 180 101.45 Dia. A 2 32 (9) 4.5 12.95 5.65 3.4 Two, 2.4 dia. 10.3 Two, 3.2 dia. Holes 18.7 Hole for optical communications (9.4) 16 4.3 70 Mounting Bracket (E39-L143) SUS304 stainless steel (sold separately) Mounting Holes 3.4 4.4 2-M3 2. The cable diameters are as follows: 16 28.1 16 Fiber Attachment mounted (E39-F9) Note: When using E39-L143 Mounting Brackets, there will be small gaps between the Amplifier Units if they are mounted side by side. 26 E3X-CN21 (4 conductors) E3X-CN22 (2 conductors) 4.0 dia. E3X-CN11 (3 conductors) E3X-CN12 (1 conductor) 2.6 dia. E3X-DA-S Communications Unit Connector Models (for EtherCAT and CompoNet) E3X-DA0-S 32.8 11.7 29.8 15.1 11.75 3.25 12.15 4.3 70 8.1 10 Two, 2.4 dia. 32 4.5 5.65 3.4 28.1 18.7 16 34.8 44.3 Two, 3.2 dia. 4.4 28.1 3.4 16 Wire-saving Connectors Master Connector E3X-CN21 2,000+50 0 Edge of amplifier (7) E3X-CN21: 4-dia. vinyl-insulated round cable with 4 conductors (Conductor cross section: 0.2 mm2, Insulator diameter: 1.1 mm) Slave Connector E3X-CN22 2,000+50 0 Edge of amplifier (7) E3X-CN22: 4-dia. vinyl-insulated round cable with 2 conductors (Conductor cross section: 0.2 mm2, Insulator diameter: 1.1 mm) 27 E3X-DA-S Master Connector E3X-CN11 2,000+50 0 Edge of amplifier (7) Cable 4-dia. vinyl-insulated round cable with 3 conductors (Conductor cross section: 0.2 mm2, Insulator diameter: 1.1 mm) Slave Connector E3X-CN12 2,000+50 0 Edge of amplifier (7) Cable 2.6-dia. vinyl-insulated round cable with 1 conductors (Conductor cross section: 0.2 mm2, Insulator diameter: 1.1 mm) Accessories (sold separately) Mounting Brackets E39-L143 34.8 22 16 2.5 (10.3) 3 Mounting Holes 7.3 5.3 2-M3 26.8 Two, 3.2 dia. 3 16 7 160.1 3 Four, R1.7 3.4 10.3 10 max. 7 Material: Stainless steel (SUS304) 1 3.4 End Plate PFP-M 11.5 1 50 M4x8 panhead screw 10 M4 spring washer 4.8 6.2 10 1 1.3 1.8 35.5 1.8 35.3 For information on Fiber Units, refer to the Fiber Sensors Best Selection Catalog (Cat. No. E353). 28 READ AND UNDERSTAND THIS DOCUMENT Please read and understand this document before using the products. Please consult your OMRON representative if you have any questions or comments. WARRANTY OMRON's exclusive warranty is that the products are free from defects in materials and workmanship for a period of one year (or other period if specified) from date of sale by OMRON. OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, REGARDING NON-INFRINGEMENT, MERCHANTABILITY, OR FITNESS FOR PARTICULAR PURPOSE OF THE PRODUCTS. ANY BUYER OR USER ACKNOWLEDGES THAT THE BUYER OR USER ALONE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE. OMRON DISCLAIMS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED. LIMITATIONS OF LIABILITY OMRON SHALL NOT BE RESPONSIBLE FOR SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED ON CONTRACT, WARRANTY, NEGLIGENCE, OR STRICT LIABILITY. In no event shall responsibility of OMRON for any act exceed the individual price of the product on which liability is asserted. IN NO EVENT SHALL OMRON BE RESPONSIBLE FOR WARRANTY, REPAIR, OR OTHER CLAIMS REGARDING THE PRODUCTS UNLESS OMRON'S ANALYSIS CONFIRMS THAT THE PRODUCTS WERE PROPERLY HANDLED, STORED, INSTALLED, AND MAINTAINED AND NOT SUBJECT TO CONTAMINATION, ABUSE, MISUSE, OR INAPPROPRIATE MODIFICATION OR REPAIR. SUITABILITY FOR USE THE PRODUCTS CONTAINED IN THIS DOCUMENT ARE NOT SAFETY RATED. THEY ARE NOT DESIGNED OR RATED FOR ENSURING SAFETY OF PERSONS, AND SHOULD NOT BE RELIED UPON AS A SAFETY COMPONENT OR PROTECTIVE DEVICE FOR SUCH PURPOSES. Please refer to separate catalogs for OMRON's safety rated products. OMRON shall not be responsible for conformity with any standards, codes, or regulations that apply to the combination of products in the customer's application or use of the product. At the customer's request, OMRON will provide applicable third party certification documents identifying ratings and limitations of use that apply to the products. This information by itself is not sufficient for a complete determination of the suitability of the products in combination with the end product, machine, system, or other application or use. The following are some examples of applications for which particular attention must be given. This is not intended to be an exhaustive list of all possible uses of the products, nor is it intended to imply that the uses listed may be suitable for the products: * Outdoor use, uses involving potential chemical contamination or electrical interference, or conditions or uses not described in this document. * Nuclear energy control systems, combustion systems, railroad systems, aviation systems, medical equipment, amusement machines, vehicles, safety equipment, and installations subject to separate industry or government regulations. * Systems, machines, and equipment that could present a risk to life or property. Please know and observe all prohibitions of use applicable to the products. NEVER USE THE PRODUCTS FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS, AND THAT THE OMRON PRODUCT IS PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM. PERFORMANCE DATA Performance data given in this document is provided as a guide for the user in determining suitability and does not constitute a warranty. It may represent the result of OMRON's test conditions, and the users must correlate it to actual application requirements. Actual performance is subject to the OMRON Warranty and Limitations of Liability. CHANGE IN SPECIFICATIONS Product specifications and accessories may be changed at any time based on improvements and other reasons. It is our practice to change model numbers when published ratings or features are changed, or when significant construction changes are made. However, some specifications of the product may be changed without any notice. When in doubt, special model numbers may be assigned to fix or establish key specifications for your application on your request. Please consult with your OMRON representative at any time to confirm actual specifications of purchased products. DIMENSIONS AND WEIGHTS Dimensions and weights are nominal and are not to be used for manufacturing purposes, even when tolerances are shown. ERRORS AND OMISSIONS The information in this document has been carefully checked and is believed to be accurate; however, no responsibility is assumed for clerical, typographical, or proofreading errors, or omissions. PROGRAMMABLE PRODUCTS OMRON shall not be responsible for the user's programming of a programmable product, or any consequence thereof. COPYRIGHT AND COPY PERMISSION This document shall not be copied for sales or promotions without permission. This document is protected by copyright and is intended solely for use in conjunction with the product. Please notify us before copying or reproducing this document in any manner, for any other purpose. If copying or transmitting this document to another, please copy or transmit it in its entirety. OMRON Corporation Industrial Automation Company Authorized Distributor: Tokyo, JAPAN Contact: www.ia.omron.com Regional Headquarters OMRON EUROPE B.V. Sensor Business Unit Carl-Benz-Str. 4, D-71154 Nufringen, Germany Tel: (49) 7032-811-0/Fax: (49) 7032-811-199 OMRON ELECTRONICS LLC One Commerce Drive Schaumburg, IL 60173-5302 U.S.A. Tel: (1) 847-843-7900/Fax: (1) 847-843-7787 OMRON ASIA PACIFIC PTE. LTD. No. 438A Alexandra Road # 05-05/08 (Lobby 2), Alexandra Technopark, Singapore 119967 Tel: (65) 6835-3011/Fax: (65) 6835-2711 OMRON (CHINA) CO., LTD. Room 2211, Bank of China Tower, 200 Yin Cheng Zhong Road, PuDong New Area, Shanghai, 200120, China Tel: (86) 21-5037-2222/Fax: (86) 21-5037-2200 (c) OMRON Corporation 2010 All Rights Reserved. In the interest of product improvement, specifications are subject to change without notice. Printed in Japan CSM_3_1_0912 (0510) Cat. No. E396-E1-03