E2EW-X5B118 5M

N E W Welding Proximity Sensors DC 3-Wire Models E2EW Series Stable detection in lines containing both and Equivalent sensing distances for iron and aluminum Exceptional sensing range* *Based on December 2019 OMRON investigation. 2 Proximity Sensors for Welding Processes E2EW Series Catches it all, whether it’s iron or aluminum PREMIUM Models OMRON’s full metal body proximity sensors deliver Quadruple distance model 12 12 mm〈M18〉 *1 Exceptionalsensing range Equivalent sensing distances 〈M18〉 mm for iron and aluminum Less design work P.4 Better operation rates The E2EW Proximity Sensor offers equivalent sensing distances for both iron and aluminum. This means that a common design can be adopted to detect the sitting of both iron and aluminum workpieces in welding processes. It also boasts the exceptional sensing range, which means fewer false detections and thereby fewer unexpected stoppages. It is equipped with a function, which effectively cancels pulse noise of current magnetic field generated during welding. *2 *1. Based on December 2019 OMRON investigation. *2. PREMIUM Models only. BASIC Models In addition to our PREMIUM Models, we also offer short-distance BASIC Models to meet various facility design requirement specifications. Single distance model odeel 5 mm〈M18〉 *For BASIC Models, the sensing distances for aluminum are approximately one third of those for iron. Refer to the Engineering Data on the datasheet. 3 New standards for usability Withstands harsh environments Lasts 60 * times longer than els previous OMRON models 3 Long-lasting spatter resistance ce *4 P.6 Durable full metal body Triple distance model to reduce unexpected stoppages P.8 10 mm〈M18〉 Clear status visualization Detection level and temperature visualization With IO-Link *5 P.10 All-around detection status visibility High-brightness LED indicators P.12 *3. Comparison with E2EF-Q products. Based on June 2019 OMRON investigation. *4. Models with spatter-resistant coating only. *5. PREMIUM Models only. 4 Proximity Sensors for Welding Processes E2EW Series PREMIUM Models Equivalent sensing distances for iron and aluminum *1 Enables facility design with fewer unexpected stoppages even in lines with both iron and aluminum workpieces *1 Based on December 2019 OMRON investigation. Applies to M18 quadruple distance models. Aluminum workpieces Iron workpieces 7 mm about 2mm For both iron and aluminum workpieces 12mm * M 18 models E2EW * M18 quadruple distance models 2＊2 Approximately double* the sensing distance of previous models Exceptional sensing range *3 Sensing distance comparison Shielded 7 mm M18 E2EW M30 E2EW Previous models 12 mm 12 mm Aluminum lron E2EW (equivalent for iron and aluminum) 22 mm *2. Comparison with E2EF products. *3. Based on December 2019 OMRON investigation. 5 Less design work Enables common design for lines with both iron and aluminum E2EW Previous models Previously, in order to stably detect sitting in mixed production lines containing both iron and aluminum, facility designs needed to accommodate sensors of different sizes for different sensing distances. With the same sensing distance for iron and aluminum, E2EW Proximity Sensors eliminate the need to change sensors according to workpieces, enabling the standardization of production facilities and mechanical drawings. Design for iron detection Sensing distance Design for aluminum detection 7 mm 12 mm *4 7 mm M30 M18 M18 Standardized design with a single one-size model Installation design must accommodate two sensor sizes Allows for more spacious sensor installation design With previous models, to avoid false detections, you were forced to adopt sensor installation designs that risked contact. The E2EW Proximity Sensor, with the exceptional sensing range, can detect accurately from a certain level of distance, which means you can adopt designs with more space to reduce the risk of contact. *4. Quadruple distance models. Better operation rates Reduces unexpected stoppages due to false detections E2EW Proximity Sensors can detect both iron and aluminum from equally long distances. This longer detection margin means less false detections, even if workpieces are moved from their intended sitting positions. Furthermore, the sensors’ installation distances do not need to be strictly adjusted, making them easy for anyone to install. E2EW Previous models Long-distance detection means improved detection margins, Workpieces not in their exact sitting positions would cause false detections, leading to facility stoppage enabling stable detection even when a workpiece gets away False detection Stable detection 7㎜ *5 12 ㎜ Sitting position confirmation *5. Embeddable triple-distance models are also available. Refer to page17 for details. Omron's unique technologies provide equivalent long sensing distances for both iron and aluminum The problem of previous full-metal body proximity sensors was the short sensing distance. E2EW Proximity Sensors are equipped with Omron's unique technology for suppressing noise influence as well as the PRD *6 technology. The technologies reduce the influence of noise, enabling the extended sensing distance. Furthermore, equivalent long distance detection for iron and aluminum is possible by adjusting the timing and time to detect current changes of sensing objects. Technology for suppressing noise influence Patent Pending *7 Random timing of pulsed current reduces the periodic noise effect on the detection signals. Long sensing distances for both iron and aluminum Time Aluminum Randomized timing Pulsed current Iron Current changes generated from sensing objects are averaged and extracted as the detection level. Timing and detection time are adjusted to keep the detection level the same. Time Periodic noise Detection level *6. PRD (Pulse Response Detection) is a technology to detect current changes of sensing objects when pulsed currents are applied to coils. *7. “Patented pending” means that we applied for a patent in Japan, and “Patented” means that we obtained a patent in Japan. (As of June 2019) 6 Proximity Sensors for Welding Processes E2EW Series New standards for usability Withstands harsh environments Last 60 times longer than previous OMRON models *1 Long-lasting spatter resistance Spatter-resistant model OMRON’s unique fluororesin coating technologies enable long-lasting spatter resistance. 7 PREMIUM Models BASIC Models Less sensor replacements Abrasion resistant fluororesin coating enables long-lasting spatter resistance against cleaning, allowing for less frequent replacement. Abrasion resistant coating reduces maintenance work Previous models + *2 40 X zoom with a microscope After use *3 Coating comes off quickly even with a spatter-resistant model. E2EW 1/60* 1 replacement frequency compared with previous models After use *3 Abrasion resistant coating *1. Comparison with E2EF-Q products. Based on June 2019 OMRON investigation. *2. E2EF-Q products. *3. Brush 10 times vertically and horizontally for each maintenance. Repeat 6 times. Technologies for increasing spatter resistance 4 Patent Pending * Technologies that can prevent the coating from being worn away during spatter cleanup are key to maintaining spatter resistance over a long period of time. OMRON focused on this point to deliver long-lasting spatter resistance. Abrasion resistant coating Coating SUS Technologies to prevent coating abrasion OMRON’s unique coating film formation technologies coupled with a specially treated base surface greatly reduces abrasion, to approximately 1/60 of previous models. E2EW Previous models Fluororesin coating on smooth surface Fluororesin coating on rough surface *4. “Patented pending” means that we applied for a patent in Japan, and “Patented” means that we obtained a patent in Japan. (As of June 2019) 8 Proximity Sensors for Welding Processes E2EW Series New standards for usability Withstands harsh environments Durable full metal body to reduce unexpected stoppages 9 PREMIUM Models BASIC Models Resistance to friction /collisions with workpieces delivers long service life Broken by collision Resin head Resistant to collision E2EW (Full Metal Body) Sitting position detection of metal plates Friction/collisions with workpieces causes the sensing surface (head) to wear out, eventually leading to insulation breakdown Exceptional sensing range and thick full metal head eliminate abrasion factors to deliver insulation breakdown resistance Thick metal head structure Resistant to friction with workpieces and metal cleaning brushes In wear resistance tests using stainless-steel brushes rotating at 130 rpm, insulation breakdown occurred in 50 minutes for resin heads, while no insulation breakdown occurred even after 400 minutes for metal heads. *Tests performed on an M18 quadruple distance model (with 0.4 mm sensing surface thickness). Brush test Initial state After 50 minutes Resin head proximity sensors E2E-X7D1 Insulation breakdown in 50 minutes Initial state Metal head proximity sensors E2EW-X12 □18 After 50 minutes After 400 minutes No insulation breakdown after 400 minutes Resistant to workpiece collision Continuous impact test results showed that the sensing surface was not penetrated even after being impacted 200,000 times. No insulation breakdown occurred. Continuous impact test *Sensing surface thickness varies for different models. Please refer to the datasheet for details. 10 Proximity Sensors for Welding Processes E2EW Series New standards for usability Clear status visualization Detection level and temperature visualization With IO-Link Sensor failures can be detected in 3-wire 2-output (NO+NC) models as well Enables failure discovery by wiring two outputs, NO and NC When NO cable is disconnected Normal operation Failure occurred +V NC 0V NO 11 PREMIUM Models Detection level visualization A real-time view of how the proximity sensors are detecting objects provides understanding of everyday changes in facility conditions that may not be visible to the naked eye. *PREMIUM Models only Application example: Maintenance management based on spatter accumulation Weld spatter can cause proximity sensors to malfunction. Monitoring detection level changes can allow for timely maintenance. Detection level Threshold value for maintenance timing Sensing surface condition that could lead to malfunction Maintenance timing Spatter accumulation Sensing surface condition after the replacement Temperature visualization Temperature changes in tough environments are visualized in real time, enabling detection of facility malfunction. Application example: Identifying temperature changes during welding Proximity sensors installed in multiple sites provide understanding of temperature changes in different locations. Temperature T ime Proximity Sensors for Welding Processes E2EW Series New standards for usability Clear status visualization All-around detection status visibility High-brightness LED indicators High-brightness LEDs provide 360-degree indicator visibility no matter where the sensors are fixed, allowing for speedy installation regardless of sensor orientation. The LEDs also provide easy access to detection status information during operation. ree visibi lit -deg 0 6 y 3 12 13 PREMIUM Models BASIC Models Other excellent usability reduces maintenance work Flexible cables to save time and work when replacing and wiring sensors The sensor’s sensing distance is printed on its head to prevent replacement errors Wiring can be flexibly routed along the equipment. The laser printing on the sensor head let you know the sensing distance at glance. Note : Models without spatter-resistant coating only. Simplify your inventory to a single model A customer may currently stock, for example, a total of four models: M18 and M30 models for iron and aluminum, and NO and NC output types for each. The customer now has the option of simplifying their inventory to a single model, the NO+NC 2-output M18 model of the E2EW Proximity Sensor, which meets all these requirements. This would significantly streamline inventory management and save a great deal of inventory space. Previous models M18 NO model Use four models according to the purpose E2EW One model covers all Detects both iron and aluminum For detecting iron Equipped with NO and NC outputs M18 NC model For detecting aluminum M30 NO model M30 NC model M18 2-output model (NO+NC) E2EW Series Selection Guide DC 3-wire Premium model capable of long-sensing distance with enhanced user-friendliness E2EW Series DC 3-wire Models (Pre-wired Model/Pre-wired Connector Model) * P16 Spatter-resistant model * M12 PREMIUM Models are scheduled for release in 2020. E2EW Series DC 3-wire Models (Connector Models) Scheduled for release Basic model with the same sensing distance as the previous model, but with enhanced user-friendliness E2EW Series DC 3-wire Models (Pre-wired Model/Pre-wired Connector Model) P20 Spatter-resistant model DC 2-wire 14 Basic model with the same sensing distance as the previous model, but with enhanced user-friendliness E2EW Series DC 2-wire Models (Pre-wired Model/Pre-wired Connector Models) Scheduled for release Welding Proximity Sensor E2EW Series DC 3-wire Stable detection in lines containing both aluminum and iron • Equivalent sensing distances for both iron and aluminum *1 • Enables common design for lines with both iron and aluminum *1 • The exceptional sensing range *2, which means fewer false detections and thereby fewer unexpected stoppages. • OMRON’s unique fluororesin coating technologies enable longlasting spatter resistance *4, which lasts 60 times *3 longer than previous models. • Durable full metal body to reduce unexpected stoppages • 2-output (NO+NC) models and models with IO-Link are also available. • The laser printing on the sensor head let you know the sensing distance at glance. *5 • Equipped with a function, which effectively cancels pulse noise of current magnetic field. *1 • UL certification (UL60947-5-2) and CSA certification (CSA C22.2 UL60947-5-2-14) For the most recent information on models that have been certified for safety standards, refer to your OMRON website. Be sure to read Safety Precautions on page 37. *1. PREMIUM Models only. *2. Based on June 2019 OMRON investigation. *3. Comparison with E2EF-Q products. Based on June 2019 OMRON investigation. *4. Models with spatter-resistant coating only. *5. Models without spatter-resistant coating only. E2EW Series Model Number Legend DC 3-wire E2EW - (1) X (2) (3) (4) (5) (6) - (7) No. Type (1) Case (2) Sensing distance (3) (4) Output configuration Operation mode (8) Code Blank Q Number (6) IO-Link baud rate Size (7) Connection method (8) Cable length With spatter-resistant coating Sensing distance (Unit: mm) B PNP open collector C NPN open collector 1 Normally open (NO) 2 Normally closed (NC) 3 Normally open, Normally closed (NO+NC) Blank (5) Meaning Without spatter-resistant coating D Non IO-Link compliant COM2 (38.4kbps) T COM3 (230.4kbps) 12 M12 18 M18 30 M30 Blank Pre-wired Models M1TJ M12 Pre-wired Smartclick Connector Models Number M Cable length Note: The purpose of this model number legend is to provide understanding of the meaning of specifications from the model number. Models are not available for all combinations of code numbers. 15 E2EW Series Ordering Information PREMIUM Model E2EW Series (Quadruple distance model) DC 3-wire [Refer to Dimensions on page 40.] Shielded *1 Size (Sensing distance) Connection method Pre-wired (2 m) *2 Operation mode M12 Pre-wired Smartclick Connector (0.3 m) E2EW-X12B1T18 2M E2EW-X12C118 2M NC E2EW-X12B218 2M E2EW-X12C218 2M M12 Pre-wired Smartclick Connector (0.3 m) --- E2EW-X12B1T18-M1TJ 0.3M E2EW-X12C118-M1TJ 0.3M NC E2EW-X12B218-M1TJ 0.3M E2EW-X12C218-M1TJ 0.3M E2EW-X12B3T18-M1TJ 0.3M --- NO E2EW-X22B1T30 2M E2EW-X22C130 2M NC E2EW-X22B230 2M E2EW-X22C230 2M NO+NC M30 (22 mm) E2EW-X12B3T18 2M NO NO+NC Pre-wired (2 m) *2 NPN NO NO+NC M18 (12 mm) Model PNP E2EW-X22B3T30 2M --- NO E2EW-X22B1T30-M1TJ 0.3M E2EW-X22C130-M1TJ 0.3M NC E2EW-X22B230-M1TJ 0.3M E2EW-X22C230-M1TJ 0.3M NO+NC E2EW-X22B3T30-M1TJ 0.3M --- *1. When embedding the Proximity Sensor in metal, refer to Influence of Surrounding Metal on page 38. *2. Models with 5-m cable length are also available with "5M" suffix. (Example: E2EW-X12B1T18 5M) Note: 1. Models in are equipped with IO-Link (COM3). For IO-Link (COM2), select a model number with the format of "E2EW-X@@@D@" (Example: E2EW-X12B1D18 2M). Operation mode NO can be changed to NC via IO-Link communications. 2. IO-Link is not supported for NC-type PNP outputs or all types of NPN outputs. 16 E2EW Series PREMIUM Model E2EW Series (Triple distance model) DC 3-wire [Refer to Dimensions on page 40.] Shielded *1 Size (Sensing distance) Connection method Pre-wired (2 m) *2 Operation mode E2EW-X10B1T18 2M E2EW-X10C118 2M NC E2EW-X10B218 2M E2EW-X10C218 2M NO M12 Pre-wired Smartclick Connector (0.3 m) NC NO+NC Pre-wired (2 m) *2 --- E2EW-X10B1T18-M1TJ 0.3M E2EW-X10C118-M1TJ 0.3M E2EW-X10B218-M1TJ 0.3M E2EW-X10C218-M1TJ 0.3M E2EW-X10B3T18-M1TJ 0.3M --- E2EW-X20B1T30 2M E2EW-X20C130 2M NC E2EW-X20B230 2M E2EW-X20C230 2M NO M12 Pre-wired Smartclick Connector (0.3 m) E2EW-X10B3T18 2M NO NO+NC M30 (20 mm) NPN NO NO+NC M18 (10 mm) Model PNP NC NO+NC E2EW-X20B3T30 2M --- E2EW-X20B1T30-M1TJ 0.3M E2EW-X20C130-M1TJ 0.3M E2EW-X20B230-M1TJ 0.3M E2EW-X20C230-M1TJ 0.3M E2EW-X20B3T30-M1TJ 0.3M --- *1. When embedding the Proximity Sensor in metal, refer to Influence of Surrounding Metal on page 38. *2. Models with 5-m cable length are also available with "5M" suffix. (Example: E2EW-X10B1T18 5M) Note: 1. Models in are equipped with IO-Link (COM3). For IO-Link (COM2), select a model number with the format of "E2EW-X@@@D@" (Example: E2EW-X10B1D18 2M). Operation mode NO can be changed to NC via IO-Link communications. 2. IO-Link is not supported for NC-type PNP outputs or all types of NPN outputs. 17 E2EW Series PREMIUM Model E2EW-Q Series (Spatter-resistant Quadruple distance model) DC 3-wire [Refer to Dimensions on page 40.] Shielded *1 Size (Sensing distance) Connection method Pre-wired (2 m) *2 Operation mode M12 Pre-wired Smartclick Connector (0.3 m) E2EW-QX12B1T18 2M E2EW-QX12C118 2M NC E2EW-QX12B218 2M E2EW-QX12C218 2M M12 Pre-wired Smartclick Connector (0.3 m) --- E2EW-QX12B1T18-M1TJ 0.3M E2EW-QX12C118-M1TJ 0.3M NC E2EW-QX12B218-M1TJ 0.3M E2EW-QX12C218-M1TJ 0.3M E2EW-QX12B3T18-M1TJ 0.3M --- NO E2EW-QX22B1T30 2M E2EW-QX22C130 2M NC E2EW-QX22B230 2M E2EW-QX22C230 2M NO+NC M30 (22 mm) E2EW-QX12B3T18 2M NO NO+NC Pre-wired (2 m) *2 NPN NO NO+NC M18 (12 mm) Model PNP E2EW-QX22B3T30 2M --- NO E2EW-QX22B1T30-M1TJ 0.3M E2EW-QX22C130-M1TJ 0.3M NC E2EW-QX22B230-M1TJ 0.3M E2EW-QX22C230-M1TJ 0.3M NO+NC E2EW-QX22B3T30-M1TJ 0.3M --- *1. When embedding the Proximity Sensor in metal, refer to Influence of Surrounding Metal on page 38. *2. Models with 5-m cable length are also available with "5M" suffix. (Example: E2EW-QX12B1T18 5M) Note: 1. Models in are equipped with IO-Link (COM3). For IO-Link (COM2), select a model number with the format of "E2EW-QX@@@D@" (Example: E2EW-QX12B1D18 2M). Operation mode NO can be changed to NC via IO-Link communications. 2. IO-Link is not supported for NC-type PNP outputs or all types of NPN outputs. 18 E2EW Series PREMIUM Model E2EW-Q Series (Spatter-resistant Triple distance model) DC 3-wire [Refer to Dimensions on page 40.] Shielded *1 Size (Sensing distance) Connection method Operation mode NO Pre-wired (2 m) *2 NC NO+NC M18 (10 mm) M12 Pre-wired Smartclick Connector (0.3 m) E2EW-QX10B218 2M E2EW-QX10C218 2M E2EW-QX10B3T18 2M --E2EW-QX10C118-M1TJ 0.3M NC E2EW-QX10B218-M1TJ 0.3M E2EW-QX10C218-M1TJ 0.3M NC NO+NC M12 Pre-wired Smartclick Connector (0.3 m) E2EW-QX10C118 2M E2EW-QX10B1T18-M1TJ 0.3M NO M30 (20 mm) NPN E2EW-QX10B1T18 2M NO NO+NC Pre-wired (2 m) *2 Model PNP E2EW-QX10B3T18-M1TJ 0.3M --- E2EW-QX20B1T30 2M E2EW-QX20C130 2M E2EW-QX20B230 2M E2EW-QX20C230 2M E2EW-QX20B3T30 2M --- NO E2EW-QX20B1T30-M1TJ 0.3M E2EW-QX20C130-M1TJ 0.3M NC E2EW-QX20B230-M1TJ 0.3M E2EW-QX20C230-M1TJ 0.3M NO+NC E2EW-QX20B3T30-M1TJ 0.3M --- *1. When embedding the Proximity Sensor in metal, refer to Influence of Surrounding Metal on page 38. *2. Models with 5-m cable length are also available with "5M" suffix. (Example: E2EW-QX10B1T18 5M) Note: 1. Models in are equipped with IO-Link (COM3). For IO-Link (COM2), select a model number with the format of "E2EW-QX@@@D@" (Example: E2EW-QX10B1D18 2M). Operation mode NO can be changed to NC via IO-Link communications. 2. IO-Link is not supported for NC-type PNP outputs or all types of NPN outputs. 19 E2EW Series BASIC Model E2EW Series (Single distance model) DC 3-wire [Refer to Dimensions on page 40.] Shielded Size (Sensing distance) Connection method Pre-wired (2 m) * M12 (2 mm) M12 Pre-wired Smartclick Connector (0.3 m) Pre-wired (2 m) * M18 (5 mm) M12 Pre-wired Smartclick Connector (0.3 m) Pre-wired (2 m) * M30 (10 mm) M12 Pre-wired Smartclick Connector (0.3 m) Operation mode Model PNP E2EW-X2B112 2M E2EW-X2C112 2M NC E2EW-X2B212 2M E2EW-X2C212 2M NO+NC E2EW-X2B312 2M E2EW-X2C312 2M NO E2EW-X2B112-M1TJ 0.3M E2EW-X2C112-M1TJ 0.3M NC E2EW-X2B212-M1TJ 0.3M E2EW-X2C212-M1TJ 0.3M NO+NC E2EW-X2B312-M1TJ 0.3M E2EW-X2C312-M1TJ 0.3M NO E2EW-X5B118 2M E2EW-X5C118 2M NC E2EW-X5B218 2M E2EW-X5C218 2M NO+NC E2EW-X5B318 2M E2EW-X5C318 2M NO E2EW-X5B118-M1TJ 0.3M E2EW-X5C118-M1TJ 0.3M NC E2EW-X5B218-M1TJ 0.3M E2EW-X5C218-M1TJ 0.3M NO+NC E2EW-X5B318-M1TJ 0.3M E2EW-X5C318-M1TJ 0.3M NO E2EW-X10B130 2M E2EW-X10C130 2M NC E2EW-X10B230 2M E2EW-X10C230 2M NO+NC E2EW-X10B330 2M E2EW-X10C330 2M NO E2EW-X10B130-M1TJ 0.3M E2EW-X10C130-M1TJ 0.3M NC E2EW-X10B230-M1TJ 0.3M E2EW-X10C230-M1TJ 0.3M NO+NC E2EW-X10B330-M1TJ 0.3M E2EW-X10C330-M1TJ 0.3M * Models with 5-m cable length are also available with "5M" suffix. (Example: E2EW-X2B112 5M) Note: IO-Link is not supported for all types of BASIC Model. 20 NPN NO E2EW Series BASIC Model E2EW-Q Series (Spatter-resistant Single distance model) DC 3-wire [Refer to Dimensions on page 40.] Shielded Size (Sensing distance) Connection method Pre-wired (2 m) * M12 (2 mm) M12 Pre-wired Smartclick Connector (0.3 m) Pre-wired (2 m) * M18 (5 mm) M12 Pre-wired Smartclick Connector (0.3 m) Pre-wired (2 m) * Operation mode M12 Pre-wired Smartclick Connector (0.3 m) NPN NO E2EW-QX2B112 2M E2EW-QX2C112 2M NC E2EW-QX2B212 2M E2EW-QX2C212 2M NO+NC E2EW-QX2B312 2M E2EW-QX2C312 2M NO E2EW-QX2B112-M1TJ 0.3M E2EW-QX2C112-M1TJ 0.3M NC E2EW-QX2B212-M1TJ 0.3M E2EW-QX2C212-M1TJ 0.3M NO+NC E2EW-QX2B312-M1TJ 0.3M E2EW-QX2C312-M1TJ 0.3M NO E2EW-QX5B118 2M E2EW-QX5C118 2M NC E2EW-QX5B218 2M E2EW-QX5C218 2M NO+NC E2EW-QX5B318 2M E2EW-QX5C318 2M NO E2EW-QX5B118-M1TJ 0.3M E2EW-QX5C118-M1TJ 0.3M NC E2EW-QX5B218-M1TJ 0.3M E2EW-QX5C218-M1TJ 0.3M NO+NC E2EW-QX5B318-M1TJ 0.3M E2EW-QX5C318-M1TJ 0.3M NO E2EW-QX10B130 2M E2EW-QX10C130 2M NC E2EW-QX10B230 2M E2EW-QX10C230 2M NO+NC M30 (10 mm) Model PNP E2EW-QX10B330 2M E2EW-QX10C330 2M NO E2EW-QX10B130-M1TJ 0.3M E2EW-QX10C130-M1TJ 0.3M NC E2EW-QX10B230-M1TJ 0.3M E2EW-QX10C230-M1TJ 0.3M NO+NC E2EW-QX10B330-M1TJ 0.3M E2EW-QX10C330-M1TJ 0.3M * Models with 5-m cable length are also available with "5M" suffix. (Example: E2EW-QX2B112 5M) Note: IO-Link is not supported for all types of BASIC Model. 21 E2EW Series Accessories (Sold Separately) Sensor I/O Connectors (Models for Pre-wired Connectors) A Sensor I/O Connector is not provided with the Sensor. It must be ordered separately as required. Round Water-resistant Connectors XS5 series Appearance Cable Specification Type Cable diameter (mm) Cable Connection Direction Straight M12 Smartclick Connector Sockets on One Cable End 6 dia. Straight type Right-angle XS5F-D421-C80-F 2 XS5F-D421-D80-F 3 XS5F-D421-E80-F 5 XS5F-D421-G80-F 10 XS5F-D421-J80-F 1 XS5F-D422-C80-F 2 XS5F-D422-D80-F 3 XS5F-D422-E80-F 5 XS5F-D422-G80-F XS5F-D422-J80-F XS5W-D421-C81-F 2 XS5W-D421-D81-F 3 XS5W-D421-E81-F 5 XS5W-D421-G81-F 10 XS5W-D421-J81-F Right-angle (Socket)/ Right-angle (Plug) 2 XS5W-D422-D81-F 5 XS5W-D422-G81-F Straight (Socket)/ Right-angle (Plug) 2 XS5W-D423-D81-F 5 XS5W-D423-G81-F Right-angle (Socket)/ Straight (Plug) 2 XS5W-D424-D81-F 5 XS5W-D424-G81-F Right-angle type Note: For details of the connector, refer to XS5 Series on page 42. 22 1 1 Straight (Socket)/ Straight (Plug) 6 dia. Sensor I/O Connector model number 10 PVC robot cable Socket and Plug on Cable Ends Cable length (m) Applicable Proximity Sensor model number E2EW-X@@@-M1TJ E2EW-QX@@@-M1TJ E2EW Series Ratings and Specifications PREMIUM Model E2EW Series (Quadruple/Triple distance model) E2EW-Q Series (Spatter-resistant Quadruple/Triple distance model) DC 3-wire Shielded Type Quadruple distance model Size Item Model Triple distance model M18 M30 M18 M30 E2EW-(Q)X12@18 E2EW-(Q)X22@30 E2EW-(Q)X10@18 E2EW-(Q)X20@30 Sensing distance 12 mm ±10% 22 mm ±10% 10 mm ±10% 20 mm ±10% Setting distance 0 to 8.4 mm 0 to 15.4 mm 0 to 7.0 mm 0 to 14 mm Differential travel 15% max. of sensing distance Detectable object Ferrous metals and non-ferrous metals (The sensing distance depends on the material of the sensing object. Refer to Engineering Data on page 25.) Standard sensing object Iron, 36 × 36 × 1 mm Response frequency *1 *2 2 Hz Power supply voltage 10 to 30 VDC (including 10% ripple (p-p)), Class 2 Current consumption 720 mW max. (Current consumption: 30 mA max. at power supply voltage of 24 V) Output configuration B@ Models: PNP open collector, C@ Models: NPN open collector Operation mode 1-output models (B1, C1): NO (Normally open), 1-output models (B2, C2): NC (Normally closed), 2-output models (B3): NO+NC (Normally open, Normally closed) Iron, 66 × 66 × 1 mm Iron, 30 × 30 × 1 mm Load current 1-output models (B1,B2,C1,C2): 10 to 30 VDC, Class 2, 200 mA max. 2-output models (B3): 10 to 30 VDC, Class 2, 100 mA max. Residual voltage 1-output models (B1,B2,C1,C2): 2 V max. (Load current: 200 mA, Cable length: 2 m) 2-output models (B3): 2 V max. (Load current: 100 mA, Cable length: 2 m) Control output Iron, 60 × 60 × 1 mm Indicator In the Standard I/O mode (SIO mode): Operation indicator (orange, lit) and communication indicator (green, not lit) In the IO-Link communication mode (COM mode): Operation indicator (orange, lit) and communication indicator (green, blinking at 1 s intervals) Protection circuits Power supply reverse polarity protection, Surge suppressor, Output short-circuit protection, Output reverse polarity protection Ambient temperature range Operating: 0 to 85 °C, Storage: -15 to 85 °C (with no icing or condensation) *4 Ambient humidity range Operating/Storage: 35% to 95% (with no condensation) Temperature influence ±20% max. of sensing distance at 23 °C in the temperature range of 0 to 85 °C Voltage influence ±1.5% max. of sensing distance at rated voltage in the rated voltage ±15% range Insulation resistance 50 MΩ min. (at 500 VDC) between current-carrying parts and case Dielectric strength 1,000 VAC, 50/60 Hz for 1 minute between current-carrying parts and case Vibration resistance (destruction) 10 to 55 Hz, 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions Shock resistance (destruction) 1,000 m/s2 10 times each in X, Y, and Z directions Degree of protection IEC 60529: IP67 Connection method Pre-wired Models (Standard cable length: 2 m), Pre-wired Connector Models (Standard cable length: 0.3 m) Weight (packed state) Materials Pre-wired Approx. 165 g Approx. 225 g Approx. 165 g Approx. 225 g M12 Pre-wired Smartclick Connector Approx. 100 g Approx. 160 g Approx. 100 g Approx. 160 g Case E2EW-X@: Stainless steel (SUS303), E2EW-QX@: Fluororesin coating (Base material: (SUS303)) Sensing surface E2EW-X@: Stainless steel (SUS303), E2EW-QX@: Fluororesin coating (Base material: (SUS303)) Sensing surface (Thickness) 0.4 mm Clamping nuts E2EW-X@: Stainless steel (SUS303), E2EW-QX@: Fluororesin coating (Base material: (SUS303)) Toothed washers Zinc-plated iron Cable Main IO-Link functions *3 IO-Link Communication specifications *3 *1. *2. *3. *4. 0.4 mm 0.5 mm Vinyl chloride (PVC) Operation mode switching between NO and NC, self diagnosis enabling, excessive proximity judgment distance selecting, timer function of the control output and timer time selecting, instability output (IO-Link mode) ON delay timer time selecting function, monitor output, operating hours read-out, readout of the sensor internal temperature, and initial reset IO-Link specification Ver.1.1 Baud rate E2EW(-Q) X@B@T@: COM3 (230.4 kbps), E2EW(-Q) X@B@D@: COM2 (38.4 kbps) Data length PD size: 2 bytes, OD size: 1 byte (M-sequence type: TYPE_2_2) Minimum cycle time Accessories 0.5 mm COM2: 2.3 ms, COM3: 1.0 ms Instruction manual, Clamping nuts, Toothed washer The response frequency is an average value. Factory setting: (timer function: ONOFF delay, timer time: 200 ms) IO-Link is not supported for NC-type PNP outputs or all types of NPN outputs. UL temperature rating is between 0 °C to 60 °C. 23 E2EW Series BASIC Model E2EW Series (Single distance model) E2EW-Q Series (Spatter-resistant Single distance model) DC 3-wire Shielded Type Single distance model Size Item Model M12 M18 M30 E2EW-(Q)X2@12 E2EW-(Q)X5@18 E2EW-(Q)X10@30 Sensing distance 2 mm ±10% 5 mm ±10% 10 mm ±10% Setting distance 0 to 1.4 mm 0 to 3.5 mm 0 to 7 mm Differential travel 10% max. of sensing distance Detectable object Ferrous metals and non-ferrous metals (The sensing distance depends on the material of the sensing object. Refer to Engineering Data on page 25.) Standard sensing object Iron, 12 × 12 × 1 mm Iron, 18 × 18 × 1 mm Iron, 30 × 30 × 1 mm Response frequency *1 100 Hz 80 Hz 40 Hz Power supply voltage 10 to 30 VDC (including 10% ripple (p-p)), Class 2 Current consumption 1-output models (B1, B2, C1, C2): 16 mA max. 2-output models (B3, C3): 20 mA max. Output configuration B@ Models: PNP open collector, C@ Models: NPN open collector Operation mode 1-output models (B1, C1): NO (Normally open), 1-output models (B2, C2): NC (Normally closed), 2-output models (B3, C3): NO+NC (Normally open, Normally closed) Load current 1-output models (B1, B2, C1, C2): 10 to 30 VDC, Class 2, 200 mA max. 2-output models (B3, C3): 10 to 30 VDC, Class 2, 100 mA max. Residual voltage 1-output models (B1, B2, C1, C2): 2 V max. (Load current: 200 mA, Cable length: 2 m) 2-output models (B3, C3): 2 V max. (Load current: 100 mA, Cable length: 2 m) Control output Indicator Operation indicator (orange, lit) and communication indicator (green, not lit) Protection circuits Power supply reverse polarity protection, Surge suppressor, Output short-circuit protection, Output reverse polarity protection Ambient temperature range Operating: 0 to 85 °C, Storage: -15 to 85 °C (with no icing or condensation) *2 Ambient humidity range Operating/Storage: 35% to 95% (with no condensation) Temperature influence ±20% max. of sensing distance at 23 °C in the temperature range of 0 to 85 °C Voltage influence ±1.5% max. of sensing distance at rated voltage in the rated voltage ±15% range Insulation resistance 50 MΩ min. (at 500 VDC) between current-carrying parts and case Dielectric strength 1,000 VAC, 50/60 Hz for 1 minute between current-carrying parts and case Vibration resistance (destruction) 10 to 55 Hz, 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions Shock resistance (destruction) 1,000 m/s2 10 times each in X, Y, and Z directions Degree of protection IEC 60529: IP67 Connection method Pre-wired Models (Standard cable length: 2 m), Pre-wired Connector Models (Standard cable length: 0.3 m) Weight (packed state) Materials Pre-wired Approx. 140 g Approx. 160 g Approx. 225 g M12 Pre-wired Smartclick Connector Approx. 70 g Approx. 95 g Approx. 160 g Case E2EW-X@: Stainless steel (SUS303), E2EW-QX@: Fluororesin coating (Base material: (SUS303)) Sensing surface E2EW-X@: Stainless steel (SUS303), E2EW-QX@: Fluororesin coating (Base material: (SUS303)) Sensing surface (Thickness) 0.8 mm Clamping nuts E2EW-X@: Stainless steel (SUS303), E2EW-QX@: Fluororesin coating (Base material: (SUS303)) Toothed washers Zinc-plated iron Cable Accessories 0.8 mm 0.8 mm Vinyl chloride (PVC) Instruction manual, Clamping nuts, Toothed washer *1. The response frequency is an average value. Measurement conditions are as follows: standard sensing object, a distance of twice the standard sensing object, and a set distance of half the sensing distance. *2. UL temperature rating is between 0 °C to 60 °C. 24 E2EW Series Engineering Data (Reference Value) Sensing Area PREMIUM Model Quadruple distance model/ Spatter-resistant Quadruple distance model Shielded Sensing object: Aluminum 24 22 20 Y 18 X E2EW-(Q)X22@30 16 Distance X (mm) Distance X (mm) Sensing object: iron 24 22 E2EW-(Q)X22@30 16 14 12 12 10 E2EW-(Q)X12@18 8 6 4 4 2 2 -30 -25 -20 -15 -10 -5 0 5 10 15 20 E2EW-(Q)X12@18 8 6 0 -35 X 18 14 10 Y 20 0 -35 25 30 35 Distance Y (mm) -30 -25 -20 -15 -10 -5 0 5 10 15 20 25 30 35 Distance Y (mm) Triple distance model/ Spatter-resistant Triple distance model Shielded Sensing object: Aluminum 24 22 20 18 16 Y X E2EW-(Q)X20@30 14 Distance X (mm) Distance X (mm) Sensing object: iron 24 22 X 18 E2EW-(Q)X20@30 16 14 12 12 10 10 E2EW-(Q)X10@18 8 8 E2EW-(Q)X10@18 6 6 4 4 2 2 0 -35 Y 20 -30 -25 -20 -15 -10 -5 0 5 10 15 20 25 30 35 Distance Y (mm) 0 -35 -30 -25 -20 -15 -10 -5 0 5 10 15 20 25 30 35 Distance Y (mm) BASIC Model Single distance model/ Spatter-resistant Single distance model Shielded Distance X (mm) Sensing object: iron 14 Y 12 X 10 E2EW-(Q)X10@30 8 6 4 E2EW-(Q)X5@18 2 0 -25 E2EW-(Q)X2@12 -20 -15 -10 -5 0 5 10 15 20 25 Distance Y (mm) 25 E2EW Series Influence of Sensing Object Size and Material PREMIUM Model Quadruple distance model/ Spatter-resistant Quadruple distance model Shielded Triple distance model/ Spatter-resistant Triple distance model Shielded Size: M18 E2EW-(Q)X10@18 Distance X (mm) Distance X (mm) Size: M18 E2EW-(Q)X12@18 16 Brass Iron 14 12 14 Brass Aluminum 12 10 10 8 Aluminum 8 Copper Copper Iron 6 6 @d 4 X 2 0 10 20 30 40 50 60 70 80 90 0 10 20 30 50 60 25 Iron Brass 20 Aluminum 25 Brass 90 Iron 20 Aluminum Copper Copper 10 10 @d X Stainless steel (SUS304) 5 @d t=3mm 0 0 10 20 30 40 50 60 70 80 90 100 110 120 X Stainless steel (SUS304) 5 Side length of sensing object: d (mm) 26 80 15 15 0 70 Size: M30 E2EW-(Q)X20@30 Distance X (mm) Distance X (mm) 40 t=3mm Side length of sensing object: d (mm) Side length of sensing object: d (mm) Size: M30 E2EW-(Q)X22@30 X Stainless steel (SUS304) 2 0 0 @d 4 t=3mm Stainless steel (SUS304) 0 10 20 30 40 50 60 70 80 90 100 t=3mm 110 120 Side length of sensing object: d (mm) E2EW Series BASIC Model Single distance model/ Spatter-resistant Single distance model Shielded Distance X (mm) Size: M12 E2EW-(Q)X2@12 3 @d X Iron t=3mm 2 Brass 1 Stainless steel (SUS304) Copper Aluminum 0 0 10 20 30 40 50 60 70 80 90 Side length of sensing object: d (mm) Distance X (mm) Size: M18 E2EW-(Q)X5@18 8 @d 7 X t=3mm Iron 6 5 4 Stainless steel (SUS304) 3 2 Brass 1 0 Aluminum 0 10 20 30 40 50 60 70 80 90 Side length of sensing object: d (mm) Distance X (mm) Size: M30 E2EW-(Q)X10@30 14 @d X 12 t=3mm Iron 10 Stainless steel (SUS304) 8 6 Brass 4 Aluminum 2 0 0 10 20 30 40 50 60 70 80 90 Side length of sensing object: d (mm) 27 E2EW Series Influence of Sensing Object Thickness and Material PREMIUM Model Quadruple distance model/ Spatter-resistant Quadruple distance model Shielded Triple distance model/ Spatter-resistant Triple distance model Shielded Size: M18 E2EW-(Q)X10@18 Distance X (mm Distance X (mm) Size: M18 E2EW-(Q)X12@18 16 14 Brass 12 14 Brass 12 10 10 Iron Copper Aluminum 8 8 Iron t 6 X 2 0 0 5 10 15 t 20 Sensing object size: 30 × 30 mm 0 5 10 Distance X (mm) Distance X (mm) Brass 20 Iron 15 t 10 0 5 10 15 20 Thickness of sensing object: t (mm) 28 Brass 20 10 Sensing object size: 66 × 66 mm 0 25 Iron X Stainless steel (SUS304) 5 30 15 Copper Aluminum 20 Size: M30 E2EW-(Q)X20@30 30 25 15 Thickness of sensing object: t (mm) Thickness of sensing object: t (mm) Size: M30 E2EW-(Q)X22@30 X Stainless steel (SUS304) 4 Sensing object size: 36 × 36 mm 2 Copper Aluminum 6 Stainless steel (SUS304) 4 0 16 Copper Aluminum t X Stainless steel (SUS304) 5 Sensing object size: 60 × 60 mm 0 0 5 10 15 20 Thickness of sensing object: t (mm) E2EW Series BASIC Model Single distance model/ Spatter-resistant Single distance model Shielded Distance X (mm) Size: M12 E2EW-(Q)X2@12 3 Iron t X 2 Stainless steel (SUS304) Sensing object size: 12 × 12 mm 1 Brass Copper Aluminum 0 0 5 10 15 20 Thickness of sensing object: t (mm) Distance X (mm) Size: M18 E2EW-(Q)X5@18 8 7 Iron 6 t 5 4 X Stainless steel (SUS304) Sensing object size: 18 × 18 mm 3 2 1 0 Brass 0 Aluminum 5 10 15 20 Thickness of sensing object: t (mm) Distance X (mm) Size: M30 E2EW-(Q)X10@30 14 Iron 12 t 10 X Stainless steel (SUS304) 8 Sensing object size: 30 × 30 mm 6 4 Brass 2 0 0 Aluminum 5 10 15 20 Thickness of sensing object: t (mm) 29 E2EW Series Monitor Output vs. Sensing Distance PREMIUM Model Quadruple distance model/ Spatter-resistant Quadruple distance model Shielded Triple distance model/ Spatter-resistant Triple distance model Shielded Size: M18 E2EW-(Q)X10@18 300 @d=36 mm t=3 mm 250 X Aluminum 200 Detection level Detection level Size: M18 E2EW-(Q)X12@18 300 @d=30 mm t=3 mm 250 X Aluminum 200 Iron 100 100 Stainless steel (SUS304) 50 0 Iron 150 150 0 0 Stainless steel (SUS304) 50 5 10 15 0 5 10 Size: M30 E2EW-(Q)X20@30 300 @d=66 mm t=3 mm 250 X Aluminum 200 Detection level Detection level Size: M30 E2EW-(Q)X22@30 300 @d=60 mm t=3 mm 250 200 Iron 150 150 100 100 Stainless steel (SUS304) 50 Stainless steel (SUS304) 50 0 5 10 15 20 25 30 Distance X (mm) 30 X Aluminum Iron 0 15 Distance X (mm) Distance X (mm) 0 0 5 10 15 20 25 30 Distance X (mm) E2EW Series I/O Circuit Diagrams/Timing charts DC 3-wire PNP output PREMIUM Model Output circuit Operation mode Model IO-Link Communication mode (COM mode) When using the Sensor connected to IO-Link Master Unit Standard I/O mode (SIO mode) When using as a general IO-Link master DC10 to 30V Brown (1) +V NO E2EW-(Q)X@B1 Proximity sensor main circuit +V Brown (1) Proximity sensor main circuit Black (4) OUT +V (1) C/Q Black (4) C/Q (4) Load 0V Blue (3) 0V Blue (3) 0V (3) DC10 to 30V Brown (1) +V NC E2EW-(Q)X@B2 Proximity sensor main circuit --- Black (2) OUT Load Blue (3) 0V DC10 to 30V Brown (1) +V Black (4) NO+NC E2EW-(Q)X@B3 Proximity sensor main circuit Brown (1) C/Q OUT1 Load White (2) OUT2 Load Blue (3) IO-Link master +V Proximity sensor main circuit Black (4) DO +V (1) C/Q (4) DI (2) White (2) 0V 0V Blue (3) 0V0V (3) In the IO-Link mode, the cord between the IO-Link master and sensor must have a length of 20 m or less. Connector Pin Arrangement M12 Smartclick Connector 1 4 2 3 31 E2EW Series PNP output Timing chart Nonsensing area Output mode Operation mode *1 Excessive proximity judgment distance *7 Unstable Set position Sensing Stable area Sensing area ProximitySensor Sensing object Rated Sensing distance (%) 100 80 20 0 ON OFF ON OFF ON OFF NO Standard I/O mode (SIO mode) *2 ON OFF ON OFF ON OFF NC ON OFF ON OFF ON OFF ON OFF NO+NC Comunication indicator (green) : Always OFF Operation indicator (orange) Control output *3 Comunication indicator (green) : Always OFF Operation indicator (orange) Control output *3 ON delay Comunication indicator (green) : Always OFF Operation indicator (orange) NO *5 *4 Control output 1 *3 Control output 2 *3 Operation indicator (orange) Control output (PD1_bit0) *3 Instability detection *6 (PD1_bit4) Excessive proximity detection (PD1_bit5) Flashing Comunication indicator (green) (1sec cycle) IO-Link Communication mode (COM mode) NC *5 *4 ON OFF 1 0 1 0 1 0 Operation indicator (orange) Control output (PD1_bit0) *3 Instability detection *6 (PD1_bit4) Excessive proximity detection (PD1_bit5) Flashing (1sec cycle) Comunication indicator (green) NO+NC *5 *4 ON OFF 1 0 1 0 1 0 1 0 Sensing Present object Not present ON OFF ON NC OFF NO Flashing (1sec cycle) Comunication indicator (green) ON OFF 1 0 1 0 1 0 *3. The timer function of the control output can be set up by the IO-Link communications. (It is able to select ON delay, OFF delay, one-shot, or ONOFF delay function and select a timer time of 1 to 16,383ms (T).) Operation indicator (orange) Control output1 (PD1_bit0) *3 Control output2 (PD1_bit1) *3 Instability detection *6 (PD1_bit4) Excessive proximity detection (PD1_bit5) OFF delay Sensing Present object Not present T 1 0 1 0 One shot Sensing Present object Not present ON OFF ON NC OFF NO 1 0 1 0 ON 1 OFF 0 ON 1 NC OFF 0 T ONOFF delay Sensing Present object Not present T ON OFF ON NC OFF NO T 1 0 1 0 T T T T *4. The excessive proximity diagnosis function can be selected by the IOLink communications. *5. The instability detection diagnosis can be selected by the IO-Link communications. *6. The judgment time for the instability detection diagnosis can be selected by the IO-Link communications. (For the ON delay timer function, the setting can be selected from 0 (invalid), 10, 50, 100, 300, 500, or 1000 ms.) *7. The judgment distance of the excessive proximity diagnosis function can be selected by the IOLink communications. (The distance can be selected as a combination of the material of the object detected, such as iron, aluminum, or SUS and the judgment distance of approximately 10, 20, or 30%. However, it is not allowed to select a combination of aluminum and 10%.) Please contact your OMRON sales representative regarding the IO-Link setup file (IODD file). Please contact your OMRON sales representative regarding assignment of data. *1. For models with IO-Link, the operation mode can be changed by the IO-Link communications. *2. If using a model with IO-Link as a general sensor or using a model without IO-Link, it operates in the standard I/O mode (SIO mode). 32 T NO T E2EW Series DC 3-wire PNP output Operation mode BASIC Model Model Timing chart Nonsensing area Output circuit Stable sensing area DC10 to 30V Brown (1) +V ProximitySensor Sensing object NO E2EW-(Q)X@B1 Rated Sensing distance 100 (%) Proximity sensor main circuit 0 Load ON Operation indicator OFF (orange) ON Control output OFF Nonsensing area Black (4) OUT Blue (3) Stable sensing area 0V DC10 to 30V Brown (1) +V ProximitySensor Sensing object NC E2EW-(Q)X@B2 Rated Sensing distance 100 (%) Proximity sensor main circuit 0 Black (2) OUT Load ON Operation indicator OFF (orange) ON Control output OFF Nonsensing area Blue (3) Stable sensing area DC10 to 30V Brown (1) +V ProximitySensor Sensing object Black (4) Rated Sensing distance NO+NC E2EW-(Q)X@B3 (%) 100 0V 0 ON Operation indicator OFF (orange) ON Control output 1 OFF ON Control output 2 OFF Proximity sensor main circuit OUT1 Load White (2) OUT2 Load Blue (3) 0V Connector Pin Arrangement M12 Smartclick Connector 1 4 2 3 33 E2EW Series DC 3-wire NPN OUTPUT Operation mode PREMIUM Model Model Timing chart Output circuit Stable sensing area Nonsensing area DC10 to 30V Brown (1) +V ProximitySensor Sensing object NO E2EW-(Q)X@C1 Load Rated Sensing distance (%) 100 Proximity sensor main circuit 0 ON Operation indicator OFF (orange) ON Control output OFF Nonsensing area OUT Black (4) Blue (3) Stable sensing area 0V DC10 to 30V Brown (1) +V ProximitySensor Sensing object Load NC E2EW-(Q)X@C2 Rated Sensing distance (%) 100 Proximity sensor main circuit 0 ON Operation indicator OFF (orange) ON OFF Control output Connector Pin Arrangement M12 Smartclick Connector 1 4 2 3 34 OUT Black (2) Blue (3) 0V E2EW Series DC 3-wire BASIC Model NPN OUTPUT Operation mode Model Timing chart Nonsensing area Output circuit Stable sensing area DC10 to 30V Brown (1) +V ProximitySensor Sensing object Load NO E2EW-(Q)X@C1 Rated Sensing distance 100 (%) Proximity sensor main circuit 0 ON Operation indicator OFF (orange) ON Control output OFF Nonsensing area OUT Black (4) Blue (3) Stable sensing area DC10 to 30V Brown (1) +V ProximitySensor Sensing object NC E2EW-(Q)X@C2 Load Rated Sensing distance 100 (%) Proximity sensor main circuit 0 ON Operation indicator OFF (orange) ON Control output OFF Nonsensing area OUT Black (2) Blue (3) DC10 to 30V ProximitySensor Brown (1) (%) +V Load Rated Sensing distance E2EW-(Q)X@C3 0V Stable sensing area Sensing object NO+NC 0V 100 Load Black (4) Proximity sensor main circuit 0 ON OFF ON OFF ON OFF OUT1 White (2) Operation indicator (orange) Control output 1 OUT2 Blue (3) 0V Control output 2 Connector Pin Arrangement M12 Smartclick Connector 1 4 2 3 35 E2EW Series Connections for Sensor I/O Connectors DC 3-Wire Proximity Sensor Types Output Operation mode Sensor I/O Connectors Model Model Connections *1 XS5 E2EW Series E2EW-(Q)X@B1@- M1TJ Main circuit NO 1 1 2 2 3 3 4 4 Brown (+) White (not connected) Blue (–) Black (Output) XS5 E2EW Series *2 NC E2EW-(Q)X@B2@-M1TJ Main circuit PNP 1 1 2 2 3 3 4 4 XS5 DC 3-Wire (M12 Smartclick Connector) NO E2EW-(Q)X@C1@-M1TJ XS5F-D421-@80-X@ XS5F-D42@-@80-F XS5W-D421-@81-X@ XS5W-D42@-@81-F Note: For details of the connector, refer to XS5 Series on page 42. 1 1 2 2 3 3 4 4 Brown (+) White (Output 2) Blue (-) Black (Output 1) XS5 E2EW Series Main circuit E2EW-(Q)X@B3@-M1TJ Main circuit E2EW Series NO+NC Brown (+) White (Output) Blue (-) Black (not connected) 1 1 2 2 3 3 4 4 Brown (+) White (not connected) Blue (-) Black (Output) XS5 E2EW Series NC E2EW-(Q)X@C2@-M1TJ Main circuit *2 NPN 1 1 2 2 3 3 4 4 XS5 E2EW-(Q)X@C3@-M1TJ Main circuit E2EW Series NO+NC Brown (+) White (Output) Blue (-) Black (not connected) 1 1 2 2 3 3 4 4 Brown (+) White (Output 2) Blue (-) Black (Output 1) *1. If the XS5W Series Connector which has a socket and plug on the cable ends is connected to the Sensor, this part will be a plug. *2. Different from Proximity Sensor wire colors. 36 E2EW Series Safety Precautions Be sure to read the precautions for all models in the website at: http://www.ia.omron.com/. Warning Indications Warning level WARNING Precautions for Safe Use Precautions for Correct Use Indicates a potentially hazardous situation which, if not avoided, will result in minor or moderate injury, or may result in serious injury or death. Additionally there may be significant property damage. Supplementary comments on what to do or avoid doing, to use the product safely. Supplementary comments on what to do or avoid doing, to prevent failure to operate, malfunction or undesirable effect on product performance. Meaning of Product Safety Symbols General prohibition Indicates the instructions of unspecified prohibited action. Caution, explosion Indicates the possibility of explosion under specific conditions. WARNING This product is not designed or rated for ensuring safety of persons either directly or indirectly. Do not use it for such purposes. Otherwise, explosion may result. Never use the product with an AC power supply. Precautions for Correct Use Do not use the product in any atmosphere or environment that exceeds the ratings. Operating Environment 1. Do not install the Sensor in the following locations. (1) Outdoor locations directly subject to sunlight, rain, snow, waterdroplets, or oil. (2) Locations subject to atmospheres with chemical vapors, inparticular solvents and acids. (3) Locations subject to corrosive gases. 2. The Sensor may malfunction if used near ultrasonic cleaning equipment, high-frequency equipment, transceivers, cellular phones, inverters, or other devices that generate a high-frequency electric field. Please refer to the Precautions for Correct Use on the OMRON website (www.ia.omron.com) for typical measures. 3. Laying the Proximity Sensor wiring in the same conduit or duct as high-voltage wires or power lines may result in incorrect operation and damage due to induction. Wire the Sensor using a separate conduit or independent conduit. 4. Never use thinner or other solvents. Otherwise, the Sensor surface may be dissolved. 5. When turning on the power by influence of temperature environment, an outputmis-pulse sometimes occurs. After the sensor has passed for 300 msec after turning on, please use in the stable state. 6. The sensor is adjusted with a high degree of accuracy, so do not use in the environment with sudden temperature change. 7. Operation check is performed using an OMRON's IO-Link master. If using an IO-Link master from another company, perform the operation check in advance. 8. When connecting non IO-Link compliant models to the IO-Link master, use the SIO mode. 9. In the IO-Link mode, the cord between the IO-Link master and sensor must have a length of 20 m or less. Precautions for Safe Use The following precautions must be observed to ensure safe operation. 1. Do not use the product in environments subject to flammable or explosive gases. 2. Do not attempt to disassemble, repair, or modify the product. 3. Do not use a voltage that exceeds the rated operating voltage range. Applying a voltage that is higher than the operating voltage range may result in explosion or fire. 4. Be sure that the power supply polarity and other wiring is correct. Incorrect wiring may cause explosion or fire. 5. If the power supply is connected directly without a load, the internal elements may explode or burn. 6. Dispose of the product according to applicable regulations (laws). 37 E2EW Series Design When the Proximity Sensor is mounted in metal, ensure that the minimum distances given in the following table are maintained. Influence of Surrounding Metal When mounting the Proximity Sensor, ensure that the minimum distances given in the following table are maintained. If you use a nut, only use the provided nut. And ensure that the minimum distances between the sensing surface and nut is bigger than the "L" given in the following table. Other non-ferrous metals affect sensor's performance in the same way as aluminum. Perform the operation check in advance. d dia. (Unit: mm) Embedded material: Iron Models d dia. * (Unit: mm) Mounting panel material: Iron Models Model L d D m n Quadruple distance model E2EW-(Q)X12@18 6 54 6 36 54 E2EW-(Q)X22@30 8 90 8 66 90 Triple distance model E2EW-(Q)X10@18 2 54 2 30 54 E2EW-(Q)X20@30 0 30 0 60 90 E2EW-(Q)X2@12 0 12 0 8 40 E2EW-(Q)X5@18 0 18 0 20 60 E2EW-(Q)X10@30 0 30 0 40 Single distance model Model L d D m m n Quadruple distance model 6 36 54 E2EW-(Q)X22@30 8 90 8 66 90 Triple distance model E2EW-(Q)X10@18 0 18 0 30 54 E2EW-(Q)X20@30 0 30 0 60 90 E2EW-(Q)X2@12 0 12 0 8 40 E2EW-(Q)X5@18 0 18 0 20 60 E2EW-(Q)X10@30 0 30 0 40 100 Embedded material: Aluminum l d D m n 12 80 12 36 80 E2EW-(Q)X22@30 16 120 16 66 120 100 Triple distance model E2EW-(Q)X10@18 12 80 12 30 80 E2EW-(Q)X20@30 16 120 16 60 120 E2EW-(Q)X2@12 12 70 12 8 70 n Single distance model E2EW-(Q)X5@18 12 80 12 20 80 E2EW-(Q)X10@30 16 120 16 40 120 E2EW-(Q)X12@18 12 80 12 36 80 E2EW-(Q)X22@30 16 120 16 66 120 Triple distance model E2EW-(Q)X10@18 12 80 12 30 80 E2EW-(Q)X20@30 16 120 16 60 120 E2EW-(Q)X2@12 12 70 12 8 70 E2EW-(Q)X5@18 12 80 12 20 80 E2EW-(Q)X10@30 16 120 16 40 120 * If you use the model E2EW-(Q)X22@30, or E2EW-(Q)X20@30, the panel thickness (t) is 3 mm or less. 38 D 54 E2EW-(Q)X12@18 Quadruple distance model Single distance model d 6 Single distance model Model Quadruple distance model Mounting panel material: Aluminum Models l E2EW-(Q)X12@18 Models Model E2EW Series Mounting When installing two or more Proximity Sensors face-to-face or sidebyside, ensure that the minimum distances given in the following table are maintained. Tightening Force A Mutual Interference Do not tighten the nut with excessive force. A washer must be used with the nut. The tightening force must be the same or less than the figures in the following table. B A (Unit: mm) Models Item Model A B Quadruple distance model E2EW-(Q)X12@18 80 60 E2EW-(Q)X22@30 135 110 Triple distance model E2EW-(Q)X10@18 80 E2EW-(Q)X20@30 Single distance model Quadruple distance model, Triple distance model, Single distance model Size Torque E2EW-X@ E2EW-QX@ M12 30 N·m 15 N·m 60 M18 70 N·m 35 N·m 135 110 M30 180 N·m 60 N·m E2EW-(Q)X2@12 40 35 E2EW-(Q)X5@18 65 60 E2EW-(Q)X10@30 110 100 Note: When mounting the Proximity Sensor, only use the provided nut. Do not use set screws. The Sensor may malfunction. Chips from Cutting Aluminum Normally, chips from cutting aluminum will not cause a detection signal to be output even if it adheres to or accumulates on the detection surface. In the following cases, however, a detection signal may be output. Remove the cutting chips in these cases. 1. If d ≥ 2/3D at the center of the detection surface where d is the cutting chip size and D is the detection surface size (Unit: mm) Model Dimension d Cutting chips Detection surface D D E2EW-(Q)X@12 10 E2EW-(Q)X@18 16 E2EW-(Q)X@30 28 2.If the cutting chips are pressed down Pressed down Cutting chips 39 E2EW Series Dimensions (Unit: mm) Tolerance class IT16 applies to dimensions in this data sheet unless otherwise specified. Sensors PREMIUM Model E2EW/E2EW-Q Series (Quadruple distance/Triple distance/Spatter-resistant Quadruple distance, Spatter-resistant Triple distance model) Pre-wired Model Pre-wired Connector Model E2EW-X12@@@18/E2EW-QX12@@@18 E2EW-X10@@@18/E2EW-QX10@@@18 E2EW-X12@@@18-M1TJ E2EW-X10@@@18-M1TJ E2EW-QX12@@@18-M1TJ E2EW-QX10@@@18-M1TJ Indicators Standard I/O mode (SIO mode): Operation indicator (orange/ON), communication indicator (green/OFF) IO-Link Communication mode (COM mode): Operation indicator (orange/ON), comunication indicator (green/Flashing (1sec cycle)* * Models with IO-Link only. 41.5 29 dia. 30 13 4 24 M18×P1 41.5 13 4 24 (Operation mode): Output configuration (B1, C1): NO (B2, C2): NC Vinyl-insulated round cable with 3 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 2 m Two clamping nuts Toothed washer 30 29 dia. M18×P1 Two clamping nuts Toothed washer (Operation mode): Output configuration (B1, C1): NO (B2, C2): NC Vinyl-insulated round cable with 3 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 2 m (Operation mode): Output configuration (B3): NO+NC Vinyl-insulated round cable with 4 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 2 m E2EW-X22@@@30/E2EW-QX22@@@30 E2EW-X20@@@30/E2EW-QX20@@@30 Indicators Standard I/O mode (SIO mode): Operation indicator (orange/ON), communication indicator (green/OFF) IO-Link Communication mode (COM mode): Operation indicator (orange/ON), comunication indicator (green/Flashing (1sec cycle)* 41.5 30 42 dia. 36 13 5 (Operation mode): Output configuration (B3): NO+NC Vinyl-insulated round cable with 4 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 2 m E2EW-X22@@@30-M1TJ E2EW-X20@@@30-M1TJ E2EW-QX22@@@30-M1TJ E2EW-QX20@@@30-M1TJ 41.5 30 42 dia. 36 5 * Models with IO-Link only. M30×P1.5 Two clamping nuts Toothed washer (Operation mode): Output configuration (B1, C1): NO (B2, C2): NC Vinyl-insulated round cable with 3 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 2 m M30×P1.5 Dimensions F 40 10 mm Dimensions M18 18.5 dia. +0.5 0 M18 M30 30.5 dia. +0.5 0 M30 R Two clamping nuts Toothed washer (Operation mode): Output configuration (B3): NO+NC Vinyl-insulated round cable with 4 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 0.3 m Angle R of the Bending Wire F (mm) 13 Indicators Standard I/O mode (SIO mode): Operation indicator (orange/ON), communication indicator (green/OFF) IO-Link Communication mode (COM mode): Operation indicator (orange/ON), comunication indicator (green/Flashing (1sec cycle)* * Models with IO-Link only. (Operation mode): Output configuration (B1, C1): NO (B2, C2): NC Vinyl-insulated round cable with 3 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 0.3 m (Operation mode): Output configuration (B3): NO+NC Vinyl-insulated round cable with 4 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 2 m Mounting Hole Dimensions Indicators Standard I/O mode (SIO mode): Operation indicator (orange/ON), communication indicator (green/OFF) IO-Link Communication mode (COM mode): Operation indicator (orange/ON), comunication indicator (green/Flashing (1sec cycle)* * Models with IO-Link only. R (mm) 18 E2EW Series E2EW/E2EW-Q Series (Single distance model/Spatter-resistant Single distance model) BASIC Model Pre-wired Model Pre-wired Connector Model E2EW-X2@@12 E2EW-QX2@@12 E2EW-X2@@12-M1TJ E2EW-QX2@@12-M1TJ 41.9 21 dia. 41.9 30.4 4 17 Two clamping nuts Toothed washer 30.4 4 17 (Operation mode): Output configuration (B1, C1): NO (B2, C2): NC Vinyl-insulated round cable with 3 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 2 m 7 M12×P1 21 dia. Operation indicator (orange) Operation indicator (orange) 7 M12×P1 Two clamping nuts Toothed washer (Operation mode): Output configuration (B1, C1): NO (B2, C2): NC Vinyl-insulated round cable with 3 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 0.3 m (Operation mode): Output configuration (B3, C3): NO+NC Vinyl-insulated round cable with 4 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 2 m E2EW-X5@@18 E2EW-QX5@@18 E2EW-X5@@18-M1TJ E2EW-QX5@@18-M1TJ 41.9 41.9 Operation indicator (orange) 10 4 24 M18×P1 30.4 29 dia. 30.4 29 dia. (Operation mode): Output configuration (B3, C3): NO+NC Vinyl-insulated round cable with 4 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 0.3 m Two clamping nuts Toothed washer 10 4 24 Operation indicator (orange) (Operation mode): Output configuration (B1, C1): NO (B2, C2): NC Vinyl-insulated round cable with 3 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 2 m M18×P1 Two clamping nuts Toothed washer (Operation mode): Output configuration (B1, C1): NO (B2, C2): NC Vinyl-insulated round cable with 3 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 0.3 m ((Operation mode): Output configuration (B3, C3): NO+NC Vinyl-insulated round cable with 4 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 2 m E2EW-X10@@30 E2EW-QX10@@30 (Operation mode): Output configuration (B3, C3): NO+NC Vinyl-insulated round cable with 4 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 0.3 m E2EW-X10@@30-M1TJ E2EW-QX10@@30-M1TJ 41.8 41.8 42 dia. 36 42 dia. 30.3 Operation indicator (orange) 10 5 30.3 5 36 Operation indicator (orange) M30×P1.5 Two clamping nuts Toothed washer (Operation mode): Output configuration (B1, C1): NO (B2, C2): NC Vinyl-insulated round cable with 3 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 2 m M30×P1.5 (Operation mode): Output configuration (B3, C3): NO+NC Vinyl-insulated round cable with 4 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 2 m Mounting Hole Dimensions Dimensions F 10 Two clamping nuts Toothed washer (Operation mode): Output configuration (B1, C1): NO (B2, C2): NC Vinyl-insulated round cable with 3 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 0.3 m (Operation mode): Output configuration (B3, C3): NO+NC Vinyl-insulated round cable with 4 conductors size: 6-dia. (Conductor cross section: 0.3 mm2 (AWG24), Insulator diameter: 1.05 mm), Standard length: 0.3 m Angle R of the Bending Wire F (mm) M12 12.5 dia. +0.5 0 M18 18.5 dia. +0.5 0 M30 30.5 dia. +0.5 0 10 mm Dimensions R (mm) M12 M18 R 18 M30 41 Round Water-resistant Connectors (M12 Smartclick) XS5 Round Water-resistive Smartclick Connectors for E2E NEXT Series proximity sensors that Reduce Installation Work • A newly developed lock mechanism that is compatible with round M12 connectors. • Simply insert the Connectors, then turn them approximately 1/8 of a turn to lock. • A positive click indicates locking. • IP67 degree of protection. • UL approved products. For the most recent information on models that have been certified for safety standards, refer to your OMRON website. Be sure to read Safety Precautions on page 48. Model Number Structure Model Number Legend Use this legend when determining the product specifications from the model number. When ordering, use a model number from the table in Ordering Information. XS5@-D 4 2 @ - @ 8 @ - F 3 4 7 8 1 2 5 6 9 1. Type W: Connectors connected to cable, socket and plug on cable ends F: Connectors connected to cable, socket on one cable end 2. Mating Section Form D: A-coding (for DC sensor) 3. Connector Poles 4: 4 poles 4. Contact Plating 2: Gold plating 5. Cable Connection Direction XS5W 1: Straight (Socket)/Straight (Plug) 2: Right-angle (Socket)/Right-angle (Plug) 3: Straight (Socket)/Right-angle (Plug) 4: Right-angle (Socket)/Straight (Plug) XS5F 1: Straight 2: Right-angle is registered trademark of OMRON Corporation. 42 6. Cable Length C: 1 m D: 2 m E: 3 m G: 5 m J: 10 m 7. Connections (Numbers inside circles are terminal numbers) 8: ABrown, BWhite, CBlue, D Black 8. Connectors on One End/Both Ends 0: Sockets on One Cable End 1: Socket and Plug on Cable Ends 9. Cable Specifications F: Robot cable XS5 Ordering Information Connectors Type Cable outer diameter (mm) Cable Connection Direction Straight (Socket)/Straight (Plug) Socket and Plug on Cable Ends XS5W 6 dia. Right-angle (Socket)/Right-angle (Plug) Straight (Socket)/Right-angle (Plug) Right-angle (Socket)/Straight (Plug) Straight type Sockets on One Cable End XS5F 6 dia. Right-angle type Cable length (m) Model 1 XS5W-D421-C81-F 2 XS5W-D421-D81-F 3 XS5W-D421-E81-F 5 XS5W-D421-G81-F 10 XS5W-D421-J81-F 2 XS5W-D422-D81-F 5 XS5W-D422-G81-F 2 XS5W-D423-D81-F 5 XS5W-D423-G81-F 2 XS5W-D424-D81-F 5 XS5W-D424-G81-F 1 XS5F-D421-C80-F 2 XS5F-D421-D80-F 3 XS5F-D421-E80-F 5 XS5F-D421-G80-F 10 XS5F-D421-J80-F 1 XS5F-D422-C80-F 2 XS5F-D422-D80-F 3 XS5F-D422-E80-F 5 XS5F-D422-G80-F 10 XS5F-D422-J80-F UL UL2238 certified (File no. E207683) 43 XS5 Accessories (Sold Separately) Connector Covers Water-resistive Covers Model Suitable connector Material Model Remarks Mounting portion XS2Z-11 Brass/ Nickel plated XS5W M12 male screw This provides IP67 levels of protection. When mounting the Water-resistive Cover to a Connector, be sure to apply a torque range between 0.39 and 0.49 N·m to tighten the Waterresistive Cover. XS5Z-11 PBT XS5F/XS5W M12 female screw This provides IP67 levels of protection. This uses the Smart click mechanism. There’s no need to keep track of locking torque. Water-resistive Covers XS2Z-11 XS5Z-11 M12 female screw XS5Z-11 M12 male screw XS2Z-11 M12×1 Dust Covers Model Material XS2Z-13 XS2Z-14 Rubber/Black Suitable connector Model XS5W M12 male screw XS5F/XS5W Contact blocks (female contact) XS2Z-15 Remarks Mounting portion M12 female screw The Dust Cover is for dust prevention and does not ensure IP67 degree of protection. When mounting the Dust Cover to a connector, be sure to press the Dust Cover onto the Connector until the Connector is fully inserted into the Dust Cover. Dust Covers XS2Z-15/XS2Z-14 XS2Z-13 XS2Z-13 M12 male screw XS2Z-15 XS2Z-14 M12 female screw Contact blocks (female contact) 44 XS5 Ratings and Specifications Rated current 4A Rated voltage 250 VDC Contact resistance (connector) 40 mΩ max. (at 20 mV max., 100 mA max.) Insulation resistance 1,000 MΩ min. (at 500 VDC) *1 Dielectric strength (connector) 1,500 VAC for 1 minute (leakage current: 1 mA max.) Degree of protection IP67 (IEC 60529) Insertion tolerance 50 times Lock strength Tensile: 100 N/15 s, Torsion: 1 N·m/15 s Cable holding strength Tensile: 100 N/15 s, Torsion: 1 N·m/15 Lock operating force 0.1 to 0.25 N·m Ambient operating temperature range -25 to 70°C *2 Ambient humidity range 20 to 85%RH *1. State at shipping. *2. Use the robot cable within a temperature range of 0 to 70°C to avoid the wire breakage when moving. Materials and Finishes Model Connector Pinout Diagram (from Mating Side) XS5W/XS5F Item Item Contacts Copper alloy/Gold plating Fixtures Zinc alloy/Nickel plationg Pin block PBT resin O-ring Rubber Cover PBT resin Cable UL13 (CL3), UL758 (AWM), 6 mm dia., AWG20 No. of poles 4 poles 1 Male (plug) contacts 4 2 3 A-coding (For DC sensors) 2 Female (socket) contacts 1 3 4 Connection Plug Socket Smartclick Socket Connectors OMRON model No. XS5F, XS5C XS5W (socket side), XS5R (socket side), XS5P * XS2F, XS2C, XS2W (socket side), M12 Socket Connectors XS2R (socket side), XS2P * * XS2P/XS5P and XS5M, XS2M cannot mate with each other. Note: : Connected by twisting. : Connected by screwing. Smartclick Plug Connectors M12 Plug Connectors XS5H, XS5G, XS5W (plug side), XS5R (plug side), XS5M * XS2H, XS2G, XS2W (plug side), XS2R (plug side), XS2M *     45 XS5 Dimensions (Unit: mm) Socket and Plug on Cable Ends XS5W Straight (Socket)/straight (Plug) XS5W-D421-@81-F M12×1 1 2 4 3 4 14.9 dia. 3 14.9 dia. 2 1 40.7 M12×1.0 44.7 L (Cable Length) Right-angle (Socket)/right-angle (Plug) XS5W-D422-@81-F L (Cable Length) 25.3 25.3 28.3 32.3 M12×1 14.9 dia. 14.9 dia. 3 2 3 4 2 Wiring Diagram for 4 Cores 1 1 4 Pin No. M12×1.0 1 2 3 4 Straight (Socket)/right-angle (Plug) XS5W-D423-@81-F L (Cable Length) 40.7 1 2 4 3 25.3 14.9 dia. 32.3 M12×1.0 M12×1 14.9 dia. 2 3 1 4 Right-angle (Socket)/straight (Plug) XS5W-D424-@81-F L (Cable Length) 25.3 44.7 4 3 14.9 dia. 1 28.3 M12×1 14.9 dia. 3 4 2 1 M12×1.0 46 2 Cable color of core sheath 1 Brown 2 White 3 Blue 4 Black XS5 Sockets on One Cable End XS5F Straight type XS5F-D421-@80-F L (Cable Length) 40.7 1 2 4 3 14.9 dia. 30 M12×1.0 5 Wiring Diagram for 4 Cores 50 Pin No. Right-angle type XS5F-D422-@80-F 1 2 3 4 Cable color of core sheath 1 Brown 2 White 3 Blue 4 Black L (Cable Length) 25.3 28.3 30 5 50 14.9 dia. 3 4 2 1 M12×1.0 47 XS5 Safety Precautions Meaning of Display Wiring Precautions for Safe Use Supplementary comments on what to do or avoid doing, to use the product safely. Precautions for Correct Use Supplementary comments on what to do or avoid doing, to prevent failure to operate, malfunction, or undesirable effects on product performance. Precautions for Safe Use Degree of Protection Do not use the product if its protective capabilities have been compromised, such as through swelling or cracks to housing or seal materials. Breakages or damage from fire may occur when products in this state continue to be used. Connector Connection and Disconnection • When connecting or disconnecting Connectors, be sure to hold the Connectors by hand. • Do not hold the cable when disconnecting Connectors. Check the alignment using the slot in the polarity key. • Do not wiring the Connector when your hands are wet. Malfunctions or device damage may occur when power is supplied to a device. • When mating Connectors, be sure to insert the plug all the way to the back of the socket before attempting to lock the Connectors. After you lock a Connector, always confirm that it is mated properly. • Do not use tools of any sort to mate the Connectors. Always use your hands. Pliers or other tools may damage the Connectors. • When you replace a Connector, make sure that there is no liquid, cutting oil, or other foreign matter on the mating surfaces before you mate the Connector. • Do not wire cables in environments in which the cable terminal sections will be subject to fluids such as water or cutting oil. • When wiring cables, ensure this is carried out in accordance with the wiring diagram. • Lay the cables so that external force is not applied to the Connectors. Otherwise, the degree of protection (IP67G) may not be achieved. Degree of Protection (IP67) • The degree of protection of Connectors (IP67) is not for a fully watertight structure. Do not use the Connectors underwater. • Do not step on or place any objects on the Connectors. Doing so may damage the Connectors. Setup • Do not install the Connectors with a load placed directly on the joint or at the point where the wires connect to the Connector. The Connector may be damaged or the wires in the cable may be disconnected. • If bending cables, ensure that these use a minimum bend radius of 40 mm. Please do not bend from the root portion on the cable Disposal Dispose of this product as industrial waste. Providing a straight section from the root portion on the cable Precautions for Correct Use • Do not use the Connectors in an atmosphere or environment that exceeds the specifications. • Always turn OFF the power supply before wiring. Failure to turn OFF the power supply may lead to electric shock or damage to devices. • Environments with corrosive gases and high temperature and humidity can cause bad connections and damage through corrosion, leading to degraded performance, therefore do not use these products in such environments. • Do not pull on the Connectors or cables with excessive force. • Do not step on or place any objects on the Connectors. Doing so may damage the Connectors. • Lay the cable where it will not be stepped on to prevent the wires in the cable from being disconnected and to protect the Connectors from being damaged. If the cable must be placed where it will be stepped on, install a protective cover. • At installation, if not installing sensors or switches, and not mating plug connectors, then use water-resistant covers (XS5Z-11, XS2Z11) or dust-resistant covers (XS2Z-13/14/15) in order to ensure correct connector mating. 48 The radius of 40 mm or more XS5 Connecting 1. Connecting the XS5 Plug and Socket • Align the projection on the plug cover with the polarity key on the socket, then insert the plug all the way in. Polarity key Protrusion on cover aligns with polarity key. • Hold the knurled socket grip, then insert the projection on the plug into the groove of the socket. Socket Plug Fixtures (grip) • Turn the knurled grips of the socket clockwise approximately 1/8 turn in respect to the plug. A click will indicate that the Connectors are locked. The locking condition can also be confirmed by the alignment marks on the plug and socket. Alignment marks 2. Connecting the XS5 and XS2 • Align the projection on the plug cover with the polarity key on the socket, then insert the plug all the way in. • In the same way as when connecting two XS2 Connectors, screw the knurled grip in the clockwise direction. • Use your fingers to tighten the Connectors sufficiently. 49 MEMO 50 Terms and Conditions Agreement Read and understand this catalog. Please read and understand this catalog before purchasing the products. Please consult your OMRON representative if you have any questions or comments. Warranties. (a) Exclusive Warranty. Omron’s exclusive warranty is that the Products will be free from defects in materials and workmanship for a period of twelve months from the date of sale by Omron (or such other period expressed in writing by Omron). Omron disclaims all other warranties, express or implied. (b) Limitations. OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, ABOUT NON-INFRINGEMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OF THE PRODUCTS. BUYER ACKNOWLEDGES THAT IT ALONE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE. Omron further disclaims all warranties and responsibility of any type for claims or expenses based on infringement by the Products or otherwise of any intellectual property right. (c) Buyer Remedy. Omron’s sole obligation hereunder shall be, at Omron’s election, to (i) replace (in the form originally shipped with Buyer responsible for labor charges for removal or replacement thereof) the non-complying Product, (ii) repair the non-complying Product, or (iii) repay or credit Buyer an amount equal to the purchase price of the non-complying Product; provided that in no event shall Omron be responsible for warranty, repair, indemnity or any other claims or expenses 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. Return of any Products by Buyer must be approved in writing by Omron before shipment. Omron Companies shall not be liable for the suitability or unsuitability or the results from the use of Products in combination with any electrical or electronic components, circuits, system assemblies or any other materials or substances or environments. Any advice, recommendations or information given orally or in writing, are not to be construed as an amendment or addition to the above warranty. See http://www.omron.com/global/ or contact your Omron representative for published information. Limitation on Liability; Etc. OMRON COMPANIES SHALL NOT BE LIABLE FOR SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR PRODUCTION OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED IN CONTRACT, WARRANTY, NEGLIGENCE OR STRICT LIABILITY. Further, in no event shall liability of Omron Companies exceed the individual price of the Product on which liability is asserted. Suitability of Use. Omron Companies shall not be responsible for conformity with any standards, codes or regulations which apply to the combination of the Product in the Buyer’s application or use of the Product. At Buyer’s request, Omron will provide applicable third party certification documents identifying ratings and limitations of use which apply to the Product. This information by itself is not sufficient for a complete determination of the suitability of the Product in combination with the end product, machine, system, or other application or use. Buyer shall be solely responsible for determining appropriateness of the particular Product with respect to Buyer’s application, product or system. Buyer shall take application responsibility in all cases. NEVER USE THE PRODUCT FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY OR IN LARGE QUANTITIES WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS, AND THAT THE OMRON PRODUCT(S) IS PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM. Programmable Products. Omron Companies shall not be responsible for the user’s programming of a programmable Product, or any consequence thereof. Performance Data. Data presented in Omron Company websites, catalogs and other materials 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 user must correlate it to actual application requirements. Actual performance is subject to the Omron’s 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 part 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 part numbers may be assigned to fix or establish key specifications for your application. Please consult with your Omron’s representative at any time to confirm actual specifications of purchased Product. Errors and Omissions. Information presented by Omron Companies has been checked and is believed to be accurate; however, no responsibility is assumed for clerical, typographical or proofreading errors or omissions. Related products Proximity Sensors E2E NEXT Series DC 2-Wire and 3-Wire Models • Exceptional sensing range *1 approximately double the sensing distance of previous models. • With high-brightness LED, the indicator is visible anywhere from 360°. • Only 10 seconds*2 to replace a Proximity Sensor with the "e-jig" (Mounting Sleeve). • Cables with enhanced oil resistance enabled 2-year oil resistance *3. *1. Based on December 2018 OMRON investigation. *2. Time required to adjust the distance when installing a Sensor. Based on OMRON investigation. *3. Refer to Ratings and Specifications on the catalog for details. However, E2E Connector Models and E2EQ series are excluded. Refer to the catalog for details. Cat. No. D121 Exceptional sensing range Proximity Sensors (E2E NEXT Series /E2EW Series ) More E2E NEXT and E2EW products are scheduled to be released for the complete lineup. (As of December 2019) Proximity Sensors E2E NEXT Series DC 3-wire · PREMIUM Models Available BASIC Models Available Sensors Welding Proximity Sensors E2E W Series DC 2-wire Available Scheduled for release DC 3-wire DC 2-wire Available Available Scheduled for release is a registered trademark of OMRON Corporation. · Company names and product names in this document are the trademarks or registered trademarks of their respective companies. · The product photographs and figures that are used in this catalog may vary somewhat from the actual products. OMRON Corporation Industrial Automation Company Authorized Distributor: Kyoto, JAPAN Contact: www.ia.omron.com Regional Headquarters OMRON EUROPE B.V. Wegalaan 67-69, 2132 JD Hoofddorp The Netherlands Tel: (31)2356-81-300/Fax: (31)2356-81-388 OMRON ELECTRONICS LLC 2895 Greenspoint Parkway, Suite 200 Hoffman Estates, IL 60169 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 © OMRON Corporation 2019 All Rights Reserved. In the interest of product improvement, specifications are subject to change without notice. CSM_3_1_0120 1219 (0619) Cat. No. D122-E1-02