User manual OMRON E2EL DATASHEET

[. . . ] High Frequency Inductive Proximity Sensor E2EL Increased response frequency for high speed applications · · · · Max 5 kHz, switching frequency M8 or dia 6. 5 mm housing Brass or stainless steel housing Ordering Information Cable types Brass housing Diameter Length 30 mm 32 mm 45 mm 47 mm 30 mm M8 32 mm 45 mm 47 mm Mounting Shielded Non-shielded Shielded Non-shielded Shielded Non-shielded Shielded Non-shielded Sensing Distance 1, 5 mm 2, 0 mm 1, 5 mm 2, 0 mm 1, 5 mm 2, 0 mm 1, 5 mm 2, 0 mm Output NPN / NO E2EL-C1R5E1 2M E2EL-C2ME1 2M E2EL-C1R5E1-L 2M E2EL-C2ME1-L 2M E2EL-X1R5E1 2M E2EL-X2ME1 2M E2EL-X1R5E1-L 2M E2EL-X2ME1-L 2M NPN / NC E2EL-C1R5E2 2M E2EL-C2ME2 2M E2EL-C1R5E2-L 2M E2EL-C2ME2-L 2M E2EL-X1R5E2 2M E2EL-X2ME2 2M E2EL-X1R5E2-L 2M E2EL-X2ME2-L 2M PNP / NO E2EL-C1R5F1 2M E2EL-C2MF1 2M E2EL-C1R5F1-L 2M E2EL-C2MF1-L 2M E2EL-X1R5F1 2M E2EL-X2MF1 2M E2EL-X1R5F1-L 2M E2EL-X2MF1-L 2M PNP / NC E2EL-C1R5F2 2M E2EL-C2MF2 2M E2EL-C2MF2-L 2M E2EL-X1R5F2 2M E2EL-X2MF2 2M E2EL-X1R5F2-L 2M E2EL-X2MF2-L 2M E2EL-C1R5F2-L 2M Ø 6, 5 Stainless steel housing Diameter Ø 6, 5 M8 Length 30 mm 45 mm 30 mm 45 mm Mounting Shielded Shielded Shielded Shielded Sensing Distance 2, 0 mm 2, 0 mm 2, 0 mm 2, 0 mm Output NPN / NO E2EL-C2E1-DS 2M E2EL-X2E1-DS 2M NPN / NC E2EL-C2E2-DS 2M E2EL-X2E2-DS 2M PNP / NO E2EL-C2F1-DS 2M E2EL-X2F1-DS 2M E2EL-X2F1-DSL 2M PNP / NC E2EL-C2F2-DS 2M E2EL-X2F2-DS 2M E2EL-X2F2-DSL 2M E2EL-C2E1-DSL 2M E2EL-C2E2-DSL 2M E2EL-C2F1-DSL 2M E2EL-C2F2-DSL 2M E2EL-X2E1-DSL 2M E2EL-X2E2-DSL 2M Plug types Brass housing Diameter Length 45 mm 47 mm 54 mm 56 mm 45 mm Mounting Shielded Non-shielded Shielded Non-shielded Shielded Non-shielded Shielded Non-shielded Shielded Non-shielded Shielded Non-shielded Sensing Distance 1, 5 mm 2, 0 mm 1, 5 mm 2, 0 mm 1, 5 mm 2, 0 mm 1, 5 mm 2, 0 mm 1, 5 mm 2, 0 mm 1, 5 mm 2, 0 mm Output NPN / NO E2EL-C1R5E1-M3 E2EL-C2ME1-M3 E2EL-C1R5E1-M3L E2EL-C2ME1-M3L E2EL-X1R5E1-M3 E2EL-X2ME1-M3 E2EL-X1R5E1-M3L E2EL-X2ME1-M3L E2EL-X1R5E1-M1 E2EL-X2ME1-M1 E2EL-X1R5E1-M1L E2EL-X2ME1-M1L NPN / NC E2EL-C1R5E2-M3 E2EL-C2ME2-M3 E2EL-C1R5E2-M3L E2EL-C2ME2-M3L E2EL-X1R5E2-M3 E2EL-X2ME2-M3 E2EL-X1R5E2-M3L E2EL-X2ME2-M3L E2EL-X1R5E2-M1 E2EL-X2ME2-M1 E2EL-X1R5E2-M1L E2EL-X2ME2-M1L PNP / NO E2EL-C1R5F1-M3 E2EL-C2MF1-M3 E2EL-C1R5F1-M3L E2EL-C2MF1-M3L E2EL-X1R5F1-M3 E2EL-X2MF1-M3 E2EL-X1R5F1-M3L E2EL-X2MF1-M3L E2EL-X1R5F1-M1 E2EL-X2MF1-M1 E2EL-X1R5F1-M1L E2EL-X2MF1-M1L PNP / NC E2EL-C1R5F2-M3 E2EL-C2MF2-M3 E2EL-C1R5F2-M3L E2EL-C2MF2-M3L E2EL-X1R5F2-M3 E2EL-X2MF2-M3 E2EL-X1R5F2-M3L E2EL-X2MF2-M3L E2EL-X1R5F2-M1 E2EL-X2MF2-M1 E2EL-X1R5F2-M1L E2EL-X2MF2-M1L Ø 6, 5 / Plug M8 M8 / Plug M8 47 mm 54 mm 56 mm 44 mm M8 / Plug M12 46 mm 60 mm 62 mm E2EL D-99 E2EL Specifications Brass type Type Operating voltage Rated supply voltage Current consumption Sensing object Mounting ((s)hielded, (n)on-shielded) *1 Operating distance in mm Tolerance of operating distance Standard target size in mm (L x W x H in mm, FE 37) Differential travel Max. response frequency in kHz Ø 6, 5 M8 Type Control output Max-Load Max-on-state Voltage drop Circuit protection Indicator Ambient temperature Humidity Influence of temperature Dielectric strength Electromagnetic compatibility EMC Vibration resistance Shock resistance Enclosure rating Connection *2 Pre-wired Weight in g Connector Material *1. [. . . ] *2. 200 mA 2, 5 VDC (at 200mA load current and with 2 m cable) Reverse polarity, output short-circuit Operating indicator (yellow LED) Operating: -25° to 70°C 35 to 95 % RH ± 10 % max. of Sn at 23°C in temperature range of -25° to 70°C 1. 500 VAC, 50/60 Hz for 1 min. between current carry parts and case EN 60947-5-2 Destruction: 10 to 70 Hz, 1, 5 mm double amplitude for 1 hour each in X, Y and Z directions Destruction: 300 m/s² (approx. 30 G) for 6 times each in X, Y and Z directions IP 67 (EN 60947-1) 2 m PVC-cable, 3 x 0, 14 mm² M8 plug 45 50 43 48 10 stainless steel 1. 4305 / AISI 303 PBTP Pre-wired Connector long short long short Case Sensing face For detailed mounting instruction please refer to page D-105 PUR cable and different length on request. E2EL D-101 E2EL Engineering data Standardized characteristic for lateral approach axial distance related to effective operating distance 1, 2 standard target axial approach 1 'switch-on' curve 0, 8 ' switch-off' curve lateral approach (s/sr) 0, 6 on 0, 4 off 0, 2 0 -1 -0, 8 -0, 6 -0, 4 -0, 2 0 0, 2 0, 4 0, 6 0, 8 1 lateral distance related to radius of 'active surface' (r/ract) Output Circuit Diagram and Timing Chart E2EL-@E@ NPN Output Brown 1 E2EL-@F@ PNP Output Brown 1 4, 7 kW Main circuit Load Main circuit 4, 7 kW Blue 3 Black 4 (or 2) Black 4 (or 2) Load 0V Blue 3 E2EL-@E@ NPN Output NO Sensing object Yellow indicator Control output Yes No Lit Not lit ON OFF NC E2EL-@F@ PNP Output Sensing object Yellow indicator Control output Yes No Lit Not lit ON OFF NO NC Pin Arrangement at Connector Types 1. Connector M8 (viewed to plug pins) 2. Connector M12 (viewed to plug pins) NO 2 free 1 (+) NC 2 Output 1 (+) Output + 3 (-) 4 Output 3 (-) 4 free D-102 Inductive Sensors Dimensions Cable types E2EL-C1@R5 2M, E2EL-C2@-DS 2M E2EL-C2M@ 2M E2EL-C1R5@-L 2M, E2EL-C2@-DSL 2M E2EL-C2M@-L 2M E2EL­X1R5@ 2M, E2EL­X2@ ­DS 2M E2EL­X2M @ 2M E2EL­X1R5@ ­L 2M, E2EL­X2 @­DSL 2M E2EL­X2M@ ­L 2M E2EL D-103 E2EL Plug types E2EL-C1R5@-M3 E2EL-C2M@-M3 E2EL-C1R5@-M3L E2EL-C2M@-M3L E2EL­X1R5@ ­M3 E2EL­X2M@ ­M3 E2EL­X1R5@ ­M3L, E2EL­X2 @DM3S E2EL­X2M @­M3L E2EL­X1R5@ ­M1 E2EL­X2M@ ­M1 E2EL­X1R5@ ­M1L E2EL­X2M@ ­M1L D-104 Inductive Sensors Installation Caution Item Examples Power Supply Do not impose an excessive voltage on the E2EL, otherwise it may explode or burn. Do not impose 24 VAC on any E2EL model, otherwise it may explode or burn. Load short-circuit Do not short-circuit the load, or the E2EL may explode or burn. The E2EL's short-circuit protection function is valid, if the polarity of the supply voltage imposed is incorrect and within the rated voltage range. Wiring Be sure to wire the E2EL and load correctly, otherwise it may explode or burn. Installation 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. High-tension Lines Wiring through Metal Conduit If there is a power or high-tension line near the cord of the Proximity Sensor, wire the cord through an independent metal conduit to prevent against Proximity Sensor damage or malfunctioning. Core Tractive Force Do not pull cords with the tractive force exceeding the following: pull force (N) = 20 x cable diameter ( mm) Power OFF The Proximity Sensor may output a pulse signal when it is turned off. Therefore, it is recommended to turn off the load before turning off the Proximity Sensor. Mounting The Proximity Sensor must not be subjected to excessive shock with a ha mmer when it is installed, otherwise the Proximity Sensor may be damaged or lose the water-resistivity. Power Supply Transformer When using a DC power supply, make sure that the DC power supply has an insulated transformer. Do not use a DC power supply with an auto-transformer. Environment Water-Resistivity Do not use the Proximity Sensor underwater, outdoors or in the rain. Sensing Object Metal Coating: The sensing distance of the Proximity Sensor vary with the metal coating on sensing objects. Operating Environment Be sure to use the Proximity Sensor within operating ambient temperature range and do not use the Proximity Sensor outdoors so that its reliability and life expectancy can be maintained. Although the Proximity Sensor is water resistive, a cover to protect the Proximity Sensor from water or soluble machining oil is reco mmended so that its reliability and life expectancy can be maintained. Do not use the Proximity Sensor in an environment with chemical gas (e. G. , strong alkaline or acid gases including nitric, chromic, and concentrated sulfuric acid gases). E2EL D-105 E2EL Correct Use Wiring Item AND (serial connection) Examples OR (parallel connection) Item The Sensors connected together must satisfy the following conditions: iL + (N-1) x i = Upper-limit of control output of each Sensor VS - N x VR = Load operating voltage N= No. [. . . ] To convert grams into ounces, multiply by 0. 03527. D06E-EN-01 In the interest of product improvement, specifications are subject to change without notice. D-106 Inductive Sensors [. . . ]