User manual OMRON TL-T DATASHEET

[. . . ] Kind of connection Blank: Pre-wired, PVC dia 4mm WA: Pre-wired, PUR/PVC dia 4mm WR: Robot cable, PVC dia 4mm M5: M8 connector (3-pole) M1J: M12 connector (4-pole) with pig-tail cable (PVC) M3J: M8 connector (4-pole) with pig-tail cable (PVC) M5J: M8 connector (3-pole) with pig-tail cable (PVC) 8. Cable length Blank: Numeral: European Union Connector type Cable type TL-T2F1-E 2M 5. Power source & output E: NPN voltage output F: PNP voltage output 6. [. . . ] of sensing distance in the rated voltage range ±15% >10 M between current-carrying parts and case 1000 VAC at 50/60 Hz between current-carrying parts and case 0 to 55 Hz with 30 min. dwell time at resonance frequency or 55 Hz each in X, Y, and Z directions 55 to 2000 Hz, 150 m/s2, double amplitude for 2 hours each in X, Y, and Z directions 300 m/s2 6 times each in X, Y, and Z directions in accordance with IEC 60529: Pre-wired models: IP67 M8 connector models: IP65 EN60947-5-2 2m cable, 3x 0, 25 mm2 for DC 3-wire models 4x 0, 25 mm2 for DC 4-wire models M8 connector Approx. 20 g PBT PVC Control output Weight (packaged) Material Note: 1. The response frequency is an average value. Measurement conditions are as follows: standard target, a distance of twice the standard target distance between targets, and a setting distance of half the sensing distance 2. PUR Cable and other legth request D-62 Inductive Sensors Engineering Data Operating Range (Typical) Shielded and non-shielded models Sensing distance X (mm) 4, 5 4, 0 3, 5 3, 0 2, 5 2, 0 1, 5 1, 0 0, 5 0, 0 -5, 0 -4, 0 -3, 0 -2, 0 -1, 0 0, 0 1, 0 2, 0 3, 0 4, 0 5, 0 Distance Y (mm) TL-T2 -@ Influence of Sensing Object Size and Material Shielded models TL-T2 -@ Sensing distance x (mm) 2, 5 d X Iron 2, 0 1, 5 Stainless steel 1, 0 Brass 0, 5 Aluminum Copper 0, 0 0 5 10 15 20 25 30 35 Side length of sensing object d (mm) Non-shielded models Sensing distance x (mm) 5, 0 4, 5 4, 0 3, 5 3, 0 2, 5 2, 0 1, 5 1, 0 0, 5 0, 0 0 5 10 15 20 25 30 35 Side length of sensing object d (mm) Brass Aluminum Copper Stainless steel d X Iron TL-T D-63 TL-T Operation PNP Output Operation mode Model Timing chart Output circuit Brown 1 +V Non-sensing zone Sensing zone Black Main circuit 4 Sensing object Load (%) 100 Rated sensing distance 0 NO TL-T@-F1-@-@ 0V Blue ON OFF ON OFF Yellow indicator 3 M8 connector (3 pin) Pin Arrangement 4 1 3 Control output Brown 1 +V Non-sensing zone Sensing zone Black Main circuit 4 Sensing object Load (%) 100 Rated sensing distance 0 NC TL-T@-F2-@-@ 0V Blue ON OFF ON OFF Yellow indicator 3 M8 connector (3 pin) Pin Arrangement 4 1 3 Control output Brown +V Non-sensing zone Sensing zone Sensing object Black NO output 100 Rated sensing distance 0 (%) Main circuit Load ON OFF ON OFF ON OFF NO+NC TL-T@-F3-@-@ Yellow indicator White NC output NO output Load NC output 0V Blue D-64 Inductive Sensors NPN Output Operation mode Model Timing chart Output circuit Brown 1 +V Load Non-sensing zone Sensing zone Sensing object Main circuit Black 100 Rated sensing distance 0 4 (%) NO TL-T@-E1-@-@ 0V Blue ON OFF ON OFF Yellow indicator 3 M8 connector (3 pin) Pin Arrangement 4 1 3 Control output Brown 1 +V Load Non-sensing zone Sensing zone (%) 100 Rated sensing distance 0 NC TL-T@-E2-@-@ 0V Blue ON OFF ON OFF Yellow indicator 3 M8 connector (3 pin) Pin Arrangement 4 1 3 Control output Brown Non-sensing zone Sensing zone +V Load Sensing object (%) 100 Rated sensing distance 0 NO+NC TL-T@-E3-@-@ Black NO output Load ON OFF ON OF ON OFF Yellow indicator Main circuit White NC output NO output NC output 0V Blue TL-T D-65 TL-T Sensing distance Main circuit Black 4 Dimensions Note: All units are in millimeters unless otherwise stated Pre-wired Models (shielded and non-shielded) TL-T2-E 2M 26 5 12 LED 3. 2 4 6 18 4. 5 3. 3 16 40 6 18 insert nut M3 4 0. 7 4 4 M8 Connector Models (shielded and non-shielded) TL-T2-M5-E 26 5 12 3. 2 4 LED 4. 5 3. 3 4 16 insert nut M3 M8 0. 7 4 D-66 40 Inductive Sensors Precautions Safety Precautions Power Supply Do not impose an excessive voltage on the TL-T, otherwise it may be damaged. Do not impose AC current (100 to 240 VAC) on any DC model, otherwise it may be damaged. Wiring Be sure to wire the TL-T and load correctly, otherwise it may be damaged. Do not expose the product to flammable or explosive gases. Do not disassemble, repair, or modify the product. Load Short-circuit Do not short-circuit the load, or the TL-T may be damaged. The TL-T's short-circuit protection function will be valid if the polarity of the supply voltage imposed is correct and within the rated voltage range. Correct Use Designing Power Reset Time The Proximity Sensor is ready to operate within 100 ms after power is supplied. If power supplies are connected to the Proximity Sensor and load respectively, be sure to supply power to the Proximity Sensor before supplying power to the load. Power OFF The Proximity Sensor may output a pulse signal when it is turned OFF. Therefore, it is recommended that the load be turned OFF before turning OFF the Proximity Sensor. Power Supply Transformer When using a DC power supply, make sure that the DC power supply has an insulated transformer. [. . . ] Check for abnormal temperature conditions and other environmental conditions. Check for proper lighting of indicators (for models with a set indicator. ) Never disassemble or repair the Sensor. Environment Water Resistivity The Proximity Sensors are tested intensively on water resistance, but in order to ensure maximum performance and life expectancy avoid immersion in water and provide protection from rain or snow. Operating Environment Ensure storage and operation of the Proximity Sensor within the given specifications. Inrush Current A load that has a large inrush current (e. g. , a lamp or motor) will damage the Proximity Sensor, in which case connect the load to the Proximity Sensor through a relay. ALL DIMENSIONS SHOWN ARE IN MILLIMETERS. To convert millimeters into inches, multiply by 0. 03937. [. . . ]