Proximity Sensors E-1. Standard E2E/E2EG E-2 Antispatter E2EQ E-32 Chemical Resistance E2FQ E-40. Cylindrical

Proximity Sensors Cylindrical Standard EE/EEG E- Antispatter EEQ E- Chemical Resistance EFQ E-0 Rectangular Subminiature ES E- Flat TL-W E-5 Standard TL-N E-60 Capacitive Liquid Level EK-L E-68 Long Distance EK-C E-7 Flat EK-F E-80 Chemical Resistance EKQ-X E-8 Peripheral Equipment Accessories Y9@ E-87 E-

Cylindrical Proximity Sensor EE/EEG Well established Series of Easy-to-use and Tough EE/EEG s Features Improved mounting strength The base bracket strength has been increased. M and more cases grew thicker. Moreover, clamping intensity is enhanced, such as adopting stainless steel material as M8. Connector strength improved All connector types changed the material of a screw into metal. It can be used for demanding applications now. Conventional product Cable breakage protection The cable protector was adopted in order to prevent possible refraction. New product Excellent environmental resistance is realized As a detection side is adopted the strong material against cutting oil. It can be used under various environment. E- Proximity Sensors

Application Positioning of a metallic mold Passage detection of a pallet Detection of filled parts Features Optimized visibility by firefly display. The introduction of a tail indicator (firefly display) allowed to increase legibility and vision field. Attachment and maintenance became easy. Use for a milling cutter Use for a milling cutter to hold with a spanner It provides a smooth installation and maintenance. EE/EEG Elongated attachment screw. The general screw type is used for all models. The overall length was not extended, but the screw was lengthened increasing the installation adjustment range. The EEG series models include M8 plug-in connector models. M8 connector series is a compact type with sufficient space efficiency. It can be used in various places. EE/EEG E-

Cylindrical Proximity Sensors Selection Guide Size Size is determined from an mounting space. External diameter Sensing distance Sensing distance changes with size, the existence of a shield, and power supply types. It is hard to be influenced of surrounding metals. Detection distance is long. Type Size Power type Shielded Unshielded M8 M M8 M0 M8 M M8 M0 DC -wire AC -wire DC -wire DC -wire AC -wire DC -wire DC -wire AC -wire DC -wire DC -wire AC -wire DC -wire DC -wire AC -wire DC -wire DC -wire AC -wire DC -wire DC -wire AC -wire DC -wire DC -wire AC -wire DC -wire Sensing distance (mm).5 5 7 8 0 8 0 O O O O O O O O O O O O O O O Connection check by means of a DC -wire proximity sensor and PLC (programmable logic controller) (Required Conditions) Connection to a PLC is possible if the specifications of the PLC and the Proximity Sensor satisfy the following conditions. (The meanings of the symbols are given below.). The voltage of the PLC and the residual voltage of the Proximity Sensor must satisfy the following. V VCC - VR. The current of the PLC and the leakage current of the Proximity Sensor must satisfy the following. I ILEAK (If the current of the PLC and the control output (IOUT) of the Proximity Sensor must satisfy the following.) IOUT (min) I IOUT (max). The current of the PLC will vary, however, with the supply voltage and the input impedance used as shown in the following equation. I = (VCC-VR-VPC)/RIN (Connection example) In this example, the above conditions are checked for such case that the PLC model is the C00H- ID, the proximity sensor model is EE-X7D-N, and the supply voltage is VDC.. V (. V) Vcc (0. V) - VR ( V) 7. V : OK. I (. ma) ILEAK (0.8mA) : OK. I = (VCC (0. V) - VR ( V) - VPC ( V)) / RIN ( kw) ª.5mA Whereas, IOUT (min) ( ma) = I (.5 ma) : OK. V: PLC voltage (. V) I: PLC current (typ.7 ma) I: PLC current (. ma) RIN: PLC input impedance ( kw) VPC: PLC internal remains voltage ( V) VR: Output residual voltage of Proximity Sensor ( V) ILEAK : Leakage current of Proximity Sensor (0.8 ma) IOUT: Proximity sensors control output ( to 00 ma) VCC: supply voltage (PLC: 0. to 6. V) The values in parentheses are for the following PLC model and Proximity Sensor model. PLC: C00H-ID Proximity Sensor: EE-X7D-N E- Proximity Sensors

Power/Output DC * Interface conditions with load are checked. Can DC -wire model be used? No Yes DC -wire model EE-X#D# DC -wire model EEG AC AC -wire model EE-X#Y# Operating Environment Wide range of operating temp -0 to +85 C EEG-X## EE-X#Y# -5 to +70 C EE-X#D# EE-X#T It is hard to be influenced of surrounding metals Shielded Maintenance Inventory reduction NPN/PNP compatible DC -wire model EE-X#D# Easy replacement Connector type EE-X#D#-M (G) EEG-X##-M EE-X#Y#-M Connector junction model EE-X#D-M (G) J-(T) Trouble curtailment Mounting to a movable part Cable bending Mutual interference prevention Bending resistance cable model EE-X#D-R Difference frequency model ( type only) EE-X##5 EE/EEG Miswiring measures Short circuit protection DC -wire model EE-X#D# DC -wire model EEG-X## No polarity DC -wire model, No polarity EE-X#D-MJ-T Early detection Diagnostic model EE-X#DS EE/EEG E-5

Ordering Information Sensors DC -wire/pre-wired s (-wire with a self-diagnostic function.) Self diagnostic Shape Sensing distance output function NC Shielded M mm EE-XDS * --- M8 7mm EE-X7DS * --- or M0 0mm EE-X0DS * --- delay 0 to 5 s (adjustable) Unshielded M 8mm EE-X8MDS * --- M8 mm EE-XMDS * --- M0 0mm EE-X0MDS * --- M8 mm EE-XD-N ** EE-XD-N * Shielded M mm EE-XD-N *** EE-XD-N * M8 7mm EE-X7D-N *** EE-X7D-N * No M0 0mm EE-X0D-N *** EE-X0D-N M8 mm EE-XMD ** EE-XMD Unshielded M 8mm EE-X8MD *** EE-X8MD M8 mm EE-XMD *** EE-XMD M0 0mm EE-X0MD *** EE-X0MD *. A different frequency type is prepared. (EE-X #D5; e.g.ee-xd5-n) *. EE models with a robotic cable are available as well. The model number of a model with a robotic cable has the suffix "-R" (e.g., EE-XD-R). *. Beside standard cable length m the 5 m long cable is the prefered length. Please designate a cable length to the bottom of model number. (e.g. EE-XD-N 5M) DC -wire/connector s (-wire with a self-diagnostic function.) M Self diagnostic output function or delay 0 to 5 s (adjustable) No Connector Applicablcable Appli- Shape Sensing distance NC connectonector con- Shielded M mm EE-XDS-M D --- --- M8 7mm EE-X7DS-M D --- --- M0 0mm EE-X0DS-M D --- --- Unshielded M 8mm EE-X8MDS-M D --- --- M8 mm EE-XMDS-M D --- --- M0 0mm EE-X0MDS-M D --- --- M8 mm EE-XD-MG A EE-XD-MG D Shielded M mm EE-XD-MG * A EE-XD-MG D M8 7mm EE-X7D-MG * A EE-X7D-MG D M0 0mm EE-X0D-MG * A EE-X0D-MG D M8 mm EE-XMD-MG A EE-XMD-MG D Unshielded M 8mm EE-X8MD-MG * A EE-X8MD-MG D M8 mm EE-XMD-MG * A EE-XMD-MG D M0 0mm EE-X0MD-MG * A EE-X0MD-MG D Shielded mm EE-XD-MG G EE-XD-MG G M8 Unshielded M8 mm EE-XMD-MG G EE-XMD-MG G *. A different frequency type is prepared. (EE-X #D5-MG; e.g.ee-xd5-mg E-6 Proximity Sensors

DC -wired/connector Extension s Shape Sensing distance Operating Applicable Applicable status Yes polarity No polarity connector connector Shielded M mm EE-XD-MGJ A EE-XD-MJ-T B M8 7mm EE-X7D-MGJ A EE-X7D-MJ-T B M0 0mm EE-X0D-MGJ A EE-X0D-MJ-T B M EE-X8MD-MGJ A --- Unshielded 8mm --- M8 mm EE-XMD-MGJ A --- --- M0 0mm EE-X0MD-MGJ A --- --- Note:. Since non-polarity type residual voltage is 5V, check interface conditions with connection load (e.g. voltage of PLC etc.).. Standard cable length is 00 mm. Besides a cable length of 500 mm and m type can be created. EE/EEG EE/EEG E-7

DC -wire/pre-wired s Shielded Unshielded Shape Beside standard cable length m, the 5 m cable is the prefered length. Please allocate a cable length to the bottom of model number. (e.g. EEG-XC-5M) DC -wire/connector s Sensing distance PNP - PNP - NC NPN - NPN - NC mm dia. 0.8mm EE-CR8B EE-CR8B EE-CR8C EE-CR8C M5 mm EE-XB EE-XB EE-XC EE-XC 5. mm dia. mm EE-CB EE-CB EE-CC EE-CC M8.5mm EEG-XR5B EEG-XR5B EEG-XR5C EEG-XR5C M mm EEG-XB EEG-XB EEG-XC EEG-XC M8 5mm EEG-X5B EEG-X5B EEG-X5C EEG-X5C M0 0mm EEG-X0B EEG-X0B EEG-X0C EEG-X0C M8 mm EEG-XMB EEG-XMB EEG-XMC EEG-XMC M 5mm EEG-X5MB EEG-X5MB EEG-X5MC EEG-X5MC M8 0mm EEG-X0MB EEG-X0MB EEG-X0MC EEG-X0MC M0 8mm EEG-X8MB EEG-X8MB EEG-X8MC EEG-X8MC Connector Shape Sensing distance M Shielded Unshielded PNP - PNP - NC NPN - NPN - NC M8.5mm EEG-XR5B-M EEG-XR5B-M EEG-XRC-M EEG-XR5C-M M mm EEG-XB-M EEG-XB-M EEG-XC-M EEG-XC-M M8 5mm EEG-X5B-M EEG-X5B-M EEG-X5C-M EEG-X5C-M M0 0mm EEG-X0B-M EEG-X0B-M EEG-X0C-M EEG-X0C-M M8 mm EEG-XMB-M EEG-XMB-M EEG-XMC-M EEG-XMC-M M 5mm EEG-X5MB-M EEG-X5MB-M EEG-X5MC-M EEG-X5MC-M M8 0mm EEG-X0MB-M EEG-X0MB-M EEG-X0MC-M EEG-X0MC-M M0 8mm EEG-X8MB-M EEG-X8MB-M EEG-X8MC-M EEG-X8MC-M Shielded.5mm EEG-XR5B-M EEG-XR5B-M EEG-XR5C-M EEG-XR5C-M M8 Unshielded M8 mm EEG-XMB-M EEG-XMB-M EEG-XMC-M EEG-XMC-M E-8 Proximity Sensors

AC -wire/pre-wired s Shape AC -wire/connector s Sensing distance M8.5mm EE-XR5Y EE-XR5Y M mm EE-XY * EE-XY * M8 5mm EE-X5Y * EE-X5Y * M0 0mm EE-X0Y * EE-X0Y * M8 mm EE-XMY EE-XMY M 5mm EE-X5MY * EE-X5MY * M8 0mm EE-X0MY * EE-X0MY * M0 8mm EE-X8MY * EE-X8MY * *. A different frequency type is prepared. (EE-X #Y#5; e.g.ee-x5y5) Connector Shape Sensing distance M Shielded Unshielded Shielded Unshielded operating configuration, Applicable connector* NC operating configuration, NC Applicable connector* M mm EE-XY-M E EE-XY-M F M8 5mm EE-X5Y-M E EE-X5Y-M F M0 0mm EE-X0Y-M E EE-X0Y-M F M 5mm EE-X5MY-M E EE-X5MY-M F M8 0mm EE-X0MY-M E EE-X0MY-M F * Refer to E-0 page for details. M0 8mm EE-X8MY-M E EE-X8MY-M F EE/EEG EE/EEG E-9

Rating/Performance DC -wire s (EE-X#D#) Item Size M8 M M8 M0 Shielded Shielded Unshielded Shielded Unshielded Shielded Unshielded Shielded Unshielded EE -XD# EE -XMD# EE -XD# EE -X8MD# EE -X7D# EE -XMD# EE -X0D# EE -X0MD# Sensing distance mm ±0% mm ±0% mm ±0% 8 mm ±0% 7 mm ±0% mm ±0% 0 mm ±0% 0 mm ±0% Setting distance* 0 to.6 mm 0 to. mm 0 to. mm 0 to 6. mm 0 to 5.6 mm 0 to. mm 0 to 8 mm 0 to 6 mm Differential distance Standard sensing object (mild steel) Response frequency* Power supply (Operating voltage range) Leakage current Control output Switching capacity Residual voltage* Indicator lamp Operating status (with sensing object approaching) Diagnostic output delay Protective circuits Ambient temperature 5% max. of sensing distance 0% max. Ferrous metal (Sensitivity lowers with non-ferrous metals) 8 x 8 x mm 0 x 0 x mm x x mm 0 x 0 x mm 8 x 8 x mm 0 x 0 x mm 5 x 5 x mm.5 khz khz 0.8 khz 0.5 khz 0. khz 0. khz to VDC (0 to 0 VDC) ripple (p-p): 0% max. 0.8 ma max. to 00 ma (5 to 00 ma for -MJ-T models), Diagnostic output: 50 ma for D (5) S models.0 V max. (under load current of 00 ma with cable length of m), 5.0 V min. for -MJ-T models D type: (red), operation setting indicator (green)d type: (red) D type: D type: NC 0. to s Surge absorber, load short-circuit protection (for control and diagnostic output) Operating: -5 C to 70 C, Storage: -0 C to 85 C (with no icing or condensation) Ambient humidity Operating/Storage: 5% to 95%RH (with no condensation) ±5% max. of sensing distance at C within temper- Temperature influence ature range of -5 C to 70 C ±0% max. sensing distance at C within temperature range of -5 C to 70 C Voltage influence ±% max. of sensing distance in rated voltage range ±5% Insulation resistance 50 MW min. (500 VDC) between energized part and case Dielectric strength Vibration resistance Shock resistance Protective structure Connection method 000 VAC 50/60 Hz for min between energized part and case 0 to 55 Hz,.5 mm double amplitude for hours each in X, Y, and Z directions Destruction: 500 m/s for 0 times each in X, Y, and Z directions Destruction:,000 m/s for 0 times each in X, Y, and Z directions Pre-wired, Connector Extension models: IEC6059 IP67 Connector type: IP67 Pre-wired models (Standard length: m), Connector models, Connector extension models (Standard length: 00 mm) E-0 Proximity Sensors

Item Weight (Packed state) Connector Approx. 0 g Approx. 0 g Approx. 0g Approx. 90 g Case Stainless steel (SUS0) Brass Sensing surface PBT Material Accessories Pre-wired models Sensor with Connector Relay Size M8 M M8 M0 Shielded Shielded Unshielded Shielded Unshielded Shielded Unshielded Shielded Unshielded EE -XD# Approx. 5 g Approx. 55 g Approx. 0 g Approx. 80 g --- Approx.0g Approx. 70 g Approx. 0 g Instruction manual EE -XMD# EE -XD# EE -X8MD# EE -X7D# EE/EEG EE -XMD# EE -X0D# EE -X0MD# *. Use within a range where the green indicator is lit. (Excluding the D models.) *. The response frequencies for DC switching are average values measured on condition that the distance between each sensing object is twice as large as the size of the sensing object and the sensing distance set is half of the maximum sensing distance. *. Since the residual voltage turns 5V when using an MJ-T type, please use it after checking interface conditions with connection device. EE/EEG E-

DC -wire s (EEG) Size M8 M M8 M0 Shielded Shielded Unshielded Shielded Unshielded Shielded Unshielded Shielded Unshielded Item EEG -XR5B#/C# EEG -XMB#/C# EEG -XB#/C# EEG -X5MB#/C# EEG -X5B#/C# EEG -X0MB#/C# EEG -X0B#/C# EEG -X8MB#C# Sensing distance.5 mm ±0% mm ±0% 5 mm ±0% 0 mm ±0% 8 mm ±0% Setting distance 0 to. mm 0 to.6 mm 0 to mm 0 to 8 mm 0 to mm Differential distance 0% max. Ferrous metal (Sensitivity lowers with non-ferrous metals) Standard sensing object (mild steel) 8 x 8 x mm x x mm 5 x 5 x mm 8 x 8 x mm 0 x 0 x mm 5 x 5 x mm Response frequency* khz 0.8 khz.5 khz 0. khz 0.6 khz 0. khz 0. khz 0. khz Power supply (Operating voltage range) Current consumption Control output Switching capacity Residual voltage Indicator lamp Operating status (with sensing object approaching) to VDC, ripple (p-p): 0% max.,(0 to 0 VDC) ma max. 00 ma max. V max. (under load current of 00 ma with cable length of m) (yellow) B/C models: B/C models: Protective circuits Reverse connection protection, surge absorber, load short-circuit protection Ambient temperature Operating/Storage: -0 C to 70^ C (with no icing or condensation) Ambient humidity Operating/Storage: 5% to 95%RH ±5% max. of sensing distance at C within temperature range of -0 C to 70 C ±0% max. of sensing distance Temperature influence at C within temperature range of -5 C to 70 C Voltage influence ±% max. of sensing distance within rated voltage range ±5% Insulation resistance 50 MW min. (500 VDC) between energized part and case Dielectric strength 000 VAC 50/60 Hz for min between energized part and case Vibration resistance 0 to 55 Hz,.5 mm double amplitude for hours each in X, Y, and Z directions Destruction: 500 m/s for Shock resistance 0 times each in X, Y, and Destruction:,000 m/s for 0 times each in X, Y, and Z directions Z directions Protective structure IEC6059 IP67 Connection method Pre-wired models (Standard length: m), Connector models Pre-wired Weight models Approx. 55 g 65 g Approx. 0 g Approx. 90 g Connector Approx. 0 g Approx. 0 g Approx. 0g Approx. 90 g Case Stainless steel (SUS0) Brass Material Sensing surface PBT Accessories Instruction manual *. The response frequencies for DC switching are average values measured on condition that the distance between each sensing object is twice as large as the size of the sensing object and the sensing distance set is half of the maximum sensing distance. E- Proximity Sensors

DC -wire s (EE-C#C#/B#, EE-XC#/B#) Shielded Size mm dia. 5. mm dia. M5 Shielded Item EE-CR8C/B# EE-XC/B# EE-CC/B# Sensing distance 0.8 mm ±5% mm ±5% Setting distance 0 to 0.5 mm 0 to 0.7 mm Differential distance Standard sensing object Response frequency Power supply (Operating voltage range) Current consumption Control output Indicator lamp Switching capacity Residual voltage Operating status (with sensing object approaching) Protective circuits Ambient temperature Ambient humidity 5% max. of sensing distance Ferrous metal (Sensitivity lowers with non-ferrous metals) Mild steel, 5 x 5 x mm khz to VDC (0 to 0 VDC) ripple (p-p): 0% max. 7 ma max. Open collector output 00 ma max. (0 VDC max.) V max. (under load current of 00 ma with cable length of m) (red) C/B type: C/B type: NC Reverse connection protection, surge absorber Operating/Storage: -5 C to 70 C (with no icing or condensation) Operating/Storage: 5% to 95%RH Temperature influence ±5% max. of sensing distance at C within temperature range of -5 C to 70 C Voltage influence ±.5% max. of sensing distance within rated voltage range ±5% Insulation resistance Dielectric strength Vibration resistance Shock resistance Protective structure 50 MW min. (500 VDC) between energized part and case 500 VAC 50/60 Hz for min between energized part and case 0 to 55 Hz,.5 mm double amplitude for hours each in X, Y, and Z directions Destruction: 500 m/s for 0 times each in X, Y, and Z directions IEC6059 IP67 Connection method Pre-wired models (Standard length: m) Weight (Packed state) Material Accessories 0 g Case Stainless steel (SUS0) Brass Sensing surface Heat-resistant ABS resin Instruction manual * The response frequencies for DC switching are average values measured on condition that the distance between each sensing object is twice as large as the size of the sensing object and the sensing distance set is half of the maximum sensing distance. EE/EEG EE/EEG E-

AC -wire s (EE-X#Y#) Item Size M8 M M8 M0 Shielded Shielded Unshielded Shielded Unshielded Shielded Unshielded Shielded Unshielded EE -XR5Y# EE -XMY# EE -XY# EE -X5MY# EE -X5Y# EE -X0MY# EE -X0Y# EE -X8MY# Sensing distance.5 mm ±0% mm ±0% 5 mm ±0% 0 mm ±0% 8 mm ±0% Setting distance 0 to. mm 0 to.6 mm 0 to mm 0 to 8 mm 0 to mm Differential distance Standard sensing object (Mild steel) Response frequency Power supply (Operating voltage range)* Leakage current Control output Switching capacity* Residual voltage Indicator lamp Operating status (with sensing object approaching) Protective circuits Ambient temperature Ambient humidity Temperature influence 0% max. Ferrous metal (Sensitivity lowers with non-ferrous metals) 8 x 8 x mm x x mm 5 x 5 x mm 8 x 8 x mm 0 x 0 x mm 5 x 5 x mm 5 Hz to 0 VAC 50/60Hz (0 to 6 VAC).7 ma max. 5 to 00 ma 5 to 00 ma 5 to 00 ma Refer to Specifications (red) Y type: Y type: NC Surge absorber Operating: -5 C to 70 C Preservation: -5 C to 70 C (with no icing) Operating/Storage: -0 C to 85 C (with no icing or condensation) Operating/Storage: 5% to 95%RH (with no condensation) ±0% max. of sensing distance at C within temperature range of -5 C to 70 C Voltage influence ±% max. of sensing distance within rated voltage range ±5% Insulation resistance 50 MW min. (500 VDC) between energized part and case Dielectric strength Vibration resistance Shock resistance ±5% max. of sensing distance at C within temperature range -0 C to 85 C±0% max. of sensing distance at C within temperature range -5 C to 70 C,000 VAC for min between energized parts and case (,000 VAC for M8 types) 0 to 55 Hz,.5 mm double amplitude for hours each in X, Y, and Z directions Destruction: 500 m/s for 0 times each in X, Y, and Z directions Protective structure IEC6059 IP67 Destruction:,000 m/s for 0 times each in X, Y, and Z directions Connection method Pre-wired models (Standard length: m), Connector models Pre-wired Weight models Approx. 5 g Approx. 55 g Approx. 0 g Approx. 80 g Connector Approx. 0 g Approx. 0 g Approx. 0g Approx. 90 g Case Stainless steel (SUS0) Brass Material Sensing PBT (polybutylene terephthalate) surface Accessories Instruction manual *. For the VAC supply to any of the aforesaid models, ensure that the operating ambient temperature range exceeds -5 C. *. When using M8-or M0-sized EE within an ambient temperature range of 70 C to 85 C, ensure that EE has a control output of 00 ma maximum. E- Proximity Sensors

Characteristic data (typical) Sensing Distance vs. Sensing Object EE-XD# EE-XD# EE-X7D# Distance X (mm).0.5.0.5.0 0.5 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum Copper Distance X (mm).0.5.0.5.0.5.0 0.5 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum Copper Distance X (mm) 8 7 6 5 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum Copper 0 5 0 5 0 5 Side length of sensing object d 0 5 0 5 0 5 0 5 0 Side length of sensing object d (mm) 0 0 0 0 0 50 Side length of sensing object d (mm) EE-X0D# EE-XMD# EE-X8MD# Distance X (mm) #d t=mm X 0 Mild steel 8 Distance X (mm) 6 #d t=mm X 5 Mild steel Distance X (mm) #d t=mm X 0 8 Mild steel 6 Stainless steel (SUS0) Brass Aluminum Copper Stainless steel (SUS0) Brass Aluminum Copper 6 Stainless steel (SUS0) Brass Aluminum Copper 0 0 0 0 0 50 60 70 Side length of sensing object d (mm) 0 0 0 0 0 50 60 70 Side length of sensing object d (mm) 0 0 5 0 0 0 50 60 70 Side length of sensing object d (mm) EE-XMD# EE-X0MD# EEG-XR5#/EE-XR5Y# Distance X (mm) 5 0 5 0 5 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum Copper Distance X (mm) 5 0 5 0 5 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum Copper Distance X (mm).5.0.5.0 0.5 #d t=mm X Mild steel Stainless steel (SUS0) Aluminum Brass EE/EEG 0 0 0 0 0 50 60 70 Side length of sensing object d (mm) 0 0 0 0 0 50 60 70 80 9000 Side length of sensing object d (mm) 0 5 0 5 0 5 Side length of sensing object d (mm) EE/EEG E-5

EEG-X#/EE-XY# EEG-X5#/EE-X5Y# EEG-X0#/EE-X0Y# Distance X (mm).5.0.5.0 0.5 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum Distance X (mm) 7 6 5 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum Distance X (mm) 0 8 6 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum 0 5 0 5 0 5 Side length of sensing object d (mm) 0 0 0 0 0 50 Side length of sensing object d (mm) 0 0 0 0 0 50 60 Side length of sensing object d (mm) EEG-XM#/EE-XMY# EEG-X5M#/EE-X5MY# EEG-X0M#/EE-X0MY# Distance X (mm).5.0.5.0 0.5 #d t=mm X Stainless steel (SUS0) Brass Aluminum Copper Mild steel Distance X (mm) 7 6 5 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum Distance X (mm) 0 8 6 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum 0 5 0 5 0 5 0 Side length of sensing object d (mm) 0 0 0 0 0 50 Side length of sensing object d (mm) 0 0 0 0 0 50 60 Side length of sensing object d (mm) EEG-X8M#/EE-X8MY# EE-CR8# EE-X#/-C# Distance X (mm) 5 0 5 0 5 #d t=mm X Mild steel Stainless steel(sus0) Brass Aluminum Distance X (mm)..0 0.8 0.6 0. 0. #d t=mm X Mild steel Stainless steel(sus0) Brass Aluminum Copper Distance X (mm)..0 0.8 0.6 0. 0. #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum 0 0 0 60 80 00 Side length of sensing object d (mm) 0 5 0 5 0 5 0 Side length of sensing object d (mm) 0 5 0 5 0 5 Side length of sensing object d (mm) E-6 Proximity Sensors

Output Circuit Diagram DC -wire s (EE-X#D#) Operating status No selfdiagnostics output, Timing chart Output circuit EE-X#D-N EE-X#D- MG(J) EE-X#D-MG EE-X#D-MJ-T Setting position Non-sensing zone Unstable sensing zone Stable sensing zone Proximity sensor (%) 00 80 0 Rated sensing distance Lit Not lit Lit Not lit Setting indicator (green) Red indicator Control output Polarised Main circuit A Brown B Blue Note: The load can be connected to either the +V or 0-V side. No polarity Main circuit D C +V 0V +V (0V) 0V (+V) Note:. The load can be connected to either the +V or 0-V side.. The EE-X#D-MJ-T has no polarity. Therefore, terminals and have no porality. No selfdiagnostic output, NC EE-X#D-N EE-X#D-MG EE-X#D-MG Non-sensing zone Sensing object (%) 00 0 Rated sensing distance Sensing zone Proximity sensor Lit Red indicator Not lit Control output Main circuit A Brown B Blue Note: The load can be connected to either the +V or 0-V side. +V 0V With selfdiagnostic output, EE-X#DS EE-X#DS-M Setting position Non-sensing zone Unstable sensing zone Stable sensing zone Proximity sensor (%) 00 80 0 Rated sensing distance Lit Setting indicator Not lit (green) Lit Red indicator Not lit Control output Diagostic Output (see note) Note: The diagostic output is when there is coil burnout or the sensing object is located in the unstable sensing range for 0. s or more. Main circuit D Brown Orange B (Diagnosis output) BlueC +V +V Note: The load connects to the +V side both control output and self-diagostic output. 0V EE/EEG EE/EEG E-7

DC -wire Operating status Output specifications Timing chart Output circuit Yes No Lit Yellow indicator Not lit Control output between brown Brown and black lines +V 00W NC NPN Output EEG-X#C# EEG-X#C#-M EEG-X#C#-M Yes No Lit Yellow indicator Not lit Control output between brown and black lines Main circuit Black Blue = NC = 0V Yes No Yellow indicator Lit Not lit Control output between brown Brown and black lines +V NC PNP Output EEG-X#B# EEG-X#B#-M EEG-X#B#-M Yes No Lit Yellow indicator Not lit Control output between brown and black lines Main circuit 00W Black Blue = NC = 0V NC NPN open collector output EE-C/X#C# Yes No Lit Red indicator Not lit Control output Yes No Lit Red indicator Not lit Control output Main circuit 00W Brown Black Blue +V 0V E-8 Proximity Sensors

Operating status Output specifications Timing chart Output circuit PNP open collector output EE-C/X#B# Red indicator Control output Yes No Lit Not lit Main circuit Brown Black +V NC Yes No Lit Red indicator Not lit Control output 00W Blue 0V AC -wire s Operating status Timing chart Output circuit NC EE-X#Y# EE-X#Y#-M Yes No Lit Red indicator Not lit Control output Yes No Lit Red indicator Not lit Control output Main circuit About connector type: type: and NC type: and Brown (or ) Blue (or ) EE/EEG EE/EEG E-9

Sensor I/O Connectors Screw Connector Shape Cable length Applicable connector Part number Applicable proximity sensor mode A XSF-D-DA0-A EE-X#D-MG EE-X#D-MGJ m B XSF-D-DC0-A EE-X#D-MJ-T EEG-X##-M 7 D XSF-D-D80-A EE-X#D-M(G) 5 EE-X#DS-M Straight type E XSF-A-DB0-A EE-X#Y-M 9 F XSF-A-D90-A EE-X#Y-M 0 A XSF-D-GA0-A EE-X#D-MG EE-X#D-MGJ 5 m B XSF-D-GC0-A EE-X#D-MJ-T EEG-X##-M 7 D XSF-D-G80-A EE-X#D-M(G) 5 EE-X#DS-M M E XSF-A-GB0-A EE-X#Y-M 9 F XSF-A-G90-A EE-X#Y-M 0 A XSF-D-DA0-A EE-X#D-MG EE-X#D-MGJ EE-X#D-MJ-T B XSF-D-DC0-A m EEG-X##-M 7 EE-X#D-M(G) 5 D XSF-D-D80-A EE-X#DS-M L type E XSF-A-DB0-A EE-X#Y-M 9 A XSF-D-GA0-A EE-X#D-MG EE-X#D-MGJ EE-X#D-MJ-T B XSF-D-GC0-A 5 m EEG-X##-M 7 D XSF-D-G80-A EE-X#D-M(G) 5 EE-X#DS-M E XSF-A-GB0-A EE-X#Y-M 9 EE-X#D-MG Straight type m XSF-M-0-A EE-X#D-MG 6 EEG-X#-M 8 EE-X#D-MG 5 m XSF-M-05-A EE-X#D-MG 6 M8 EEG-X#-M 8 G EE-X#D-MG L type m XSF-M-0-A EE-X#D-MG 6 EEG-X#-M 8 EE-X#D-MG 5 m XSF-M-05-A EE-X#D-MG 6 EEG-X#-M 8 *. Refer to the column of the following page "connection figure No." for connection of a proximity sensor and an I/O connector. Figure No.* E-0 Proximity Sensors

Connection with a sensor I/O connector Figure No. Type Proximity Sensors Operating status Sensor I/O Connectors Connection DC -wire (IEC pin arrangement) EE-X#D-MG(J) : Straight type : L type XSF-D#-#A0-A D: Cable length m G: Cable length 5m EE Main circuit XSF Brown (+) Blue (-) DC -wire (No polarity) DC -wire (M8 connector) EE-X#D-MJ-T EE-X#D-MG : Straight type : L type XSF-D#-#C0-A XSF-M#-0#-A : Cable length m 5: Cable length 5m D: Cable length m G: Cable length 5m : Straight type : L type EE Main circuit EE Main circuit XSF (see note) XSF(see note) Brown (unused) Blue (+) (-) Black (-) (+) Brown (+) White (unused) Blue (unused) Black (-) DC -wire (diagnostic type) EE-X#DS-M : Straight type : L type XSF-D#-#80-A D: Cable length m G: Cable length 5m EE Main circuit XSF(see note) Brown (unused) White (self-diagostic output) (+) Blue (0-V) Black (control output) (+) 5 6 DC -wire (IEC pin arrangement) DC -wire (M8 connector) NC EE-X#D-MG EE-X#D-MG XSF-D#-#80-A : Straight type : L type XSF-D#-0#-A : Cable length m 5: Cable length 5m D: Cable length m G: Cable length 5m : Straight type : L type EE Main circuit EE Main circuit XSF(see note) XSF(see note) Brown (+) White (-) Blue (unused) Black (unused) Brown (+) White (-) Blue (unused) Black (unused 7 DC -wire 8 9 DC -wire (M8 connector) AC -wire s EEG-X#-M EEG-X#-M EE-X#Y-M : Straight type : L type XSF-D#-#C0-A XSF-M#-0#-A : Cable length m 5: Cable length 5m XSF-A#-#B0-A D: Cable length m G: Cable length 5m : Straight type : L type : Straight type : L type D: Cable length m G: Cable length 5m EE Main circuit EE Main circuit EE Main circuit EE XSF XSF XSF XSF (see note) Brown (+V) Blue (0-V) Black (output) Brown (+V) White (unused) Blue (0-V) Black (output) Brown Blue EE/EEG 0 NC EE-X#Y-M XSF-A-#90-A D: Cable length m G: Cable length 5m Main circuit Brown White Blue (unused) Black (unused) * Please take note that it differs from the cable color of a proximity sensor. EE/EEG E-

Precautions Caution Do not short-circuit the load, otherwise EE may explode or burn. Do not impose an excessive voltage on EE, otherwise it may explode or burn. Item EE-CR8# EE-X# EE-C# Correct Use Design Effects of Surrounding Metal Provide a minimum distance between the Sensor and the surrounding metal as shown in the table below. I d dia. n m D m I Effects of Surrounding Metal (unit: mm) (Relationship between Screw Sizes and s) DC -wire EE-X#D# DC -wire EE-X#B#/C# EEG AC -wire s EE-X#Y# DC -wire EE-X#C/B# EE-C#C/B# Type Item M8 M M8 M0 l 0 d 8 8 0 Shielded D 0 m.5 8 0 0 n 8 7 5 l 5 0 d 0 70 90 Unshielded D 5 0 m 8 0 0 70 n 0 70 90 Shielded Unshielded l 0 d 8 8 0 D 0 m.5 8 0 0 n 8 7 5 l 6 5 0 d 0 55 90 D 6 5 0 m 8 0 0 70 n 6 5 90 Type Item dia. M5 5. mm dia. l 0 d 5 5. Shielded D 0 m. n 6 8 mm dia. M5 5. mm dia. M8 M M8 M0 Type Shielded Shielded Unshielded Shielded Unshielded Shielded Unshielded Shielded Unshielded EE-CR8C# EE-CR8B EE-XC# EE-XB EE-CC# EE-CB EE-XD# EEG-XR5# EE-XR5Y# EE-XMD# EEG-XM# EE-XMY# EE-XD# EEG-X# EE-XY# EE-X8MD# EEG-X5M# EE-X5MY# EE-X7D# EEG-X5# EE-X5Y# EE-XMD# EEG-X0M# EE-X0MY# EE-X0D# EEG-X0# EE-X0Y# EE-X0MD# EEG-X8M# EE-X8MY # E- Proximity Sensors

Mutual Interference When installing two or more Sensors face to face or side by side, ensure that the minimum distances given in the right-side tables are maintained. A Mutual Interference DC -wire EE-X#D# DC -wire EEG AC -wire s EE-X#Y# Type Item M8 M M8 M0 Shielded A 0 0 (0) 50 (0) 00(50) B 5 0() 5 (8) 70(5) Unshielded A 80 0(60) 00(00) 00(00) B 60 00(50) 0(60) 00(00) Shielded A 0 0 (0) 50 (0) 00(50) B 5 0() 5 (8) 70(5) Unshielded A 80 0(60) 00(00) 00(00) B 60 00(50) 0(60) 00(00) B Type Item mm dia. M5 DC -wire A 0 EE-X#C/B# Shielded EE-C#C/B# B 5 Note: Values in parentheses: Using a different frequency type model value. 5. mm dia. Inrush Current A load that has a large inrush current (e.g., a lamp or motor) will damage the Proximity Sensor, in such case connect the load to the Proximity Sensor by means of a relay. Mounting Mounting Do not tighten the nut with excessive force. A washer must be used with the nut. <Shielded type> <Unshielded tyepe> How to attach a pillar-screwless type (E E-CR8, -C). 8 to mm M hole No screw is provided with the EE-CR8 or EE-C. Please prepare it separatly. Note:. The table below shows the tightening torques for part A and part B nuts. In the previous examples, the nut is on the sensor head side (part B) and hence the tightening torque for part B applies. If this nut is in part A, the tightening torque for part A applies instead.. Following table bolting permission intensity shows the value at the time of using a washer. M5 M8 M M8 M0 Part B Part A Part A Part B Type Tensile Tensile Length (mm) strength strength (torque) (torque) Nm Shielded 9 Unshielded 9 Nm Nm 0 Nm 70 Nm 80 Nm Part B Part A If you use a set screw, please increase the below bolting torque by 0. Nm. (EE-C: 0. Nm max.) EE/EEG EE/EEG E-

Dimensions (Unit: mm) Sensors s and dimensions chart Shielded Pre-wired Connector (M) Connector(M8) Connector extension Connector extension (no polarity) Shielded Unshielded Shielded Unshielded Type DC -wire DC -wire AC -wire s Note:.Two clamping nuts and one toothed washer are attached to M8 to M0 type..the pre-wired models of M8 to M0 mark model number to a cable and a milling cutter by laser. Figure No. mm dia. EE-CR8# M5 --- EE-X# 5. mm dia. EE-C# Figure No. --- M8 EE-XD# EEG-XR5B#/C# EE-XR5Y# 6 M EE-XD# 8 EEG-XB#/C# 8 EE-XY# 0 M8 EE-X7D# EEG-X5B#/C# EE-X5Y# M0 EE-X0D# 5 EEG-X0BE#/C# 5 EE-X0Y# 5 M8 EE-XMD# 5 EEG-XMB#/C# 5 EE-XMY# 7 M EE-X8MD# 9 EEG-X5MB#/C# 9 EE-X5MY# M8 EE-XMD# EEG-X0MB#/C# EE-X0MY# M0 EE-X0MD# 6 EEG-X8MB#/C# 6 EE-X8MY# 6 M8 EE-XD#-M(G) 7 EEG-XR5B#/C#-M 7 --- M EE-XD#-M(G) 9 EEG-XB#/C#-M 9 EE-XY#-M M8 EE-X7D#-M(G) EEG-X5B#/C#-M EE-X5Y#-M M0 EE-X0D#-M(G) 5 EEG-X0B#/C#-M 5 EE-X0Y#-M 5 M8 EE-XMD#-M(G) 8 EEG-XMB#/C#-M 8 --- M EE-X8MD#-M(G) 0 EEG-X5MB#/C#-M 0 EE-X5MY#-M M8 EE-XMD#-M(G) EEG-X0MB#/C#-M EE-X0MY#-M M0 EE-X0MD#-M(G) 6 EEG-X8MB#/C#-M 6 EE-X8MY#-M 6 Shielded EE-XD#-MG 7 EEG-XR5B#/C#-M 7 Unshielded M8 EE-XMD#-MG 8 EEG-XMB#/C#-M 8 Shielded Unshielded Pre-wired s (Shielded) ^ M EE-XD-MGJ 9 M8 EE-X7D-MGJ M0 EE-X0D-MGJ M EE-X8MD-MGJ 0 M8 EE-XMD-MGJ M0 EE-X0MD-MGJ M EE-XD-MJ-T 9 M8 EE-X7D-MJ-T M0 EE-X0D-MJ-T --- --- --- --- --- --- --- Figure No. fig. EE-CR8# EE_0 fig. EE-C# EE_0 dia. 5 7.5 5. dia. 5 7.5 (see note) Indicator Note: Round vinyl-insulated cable (oil-and vibration-resistive), 0.mm, cores.9 dia. Standard length: m, The cable can be extended up to 00m (see note) Indicator Note: Round vinyl-insulated cable (oil-and vibration-resistive), 0.mm, cores.9 dia. Standard length: m, The cable can be extended up to 00m Mounting Holes Outer diameter mm dia. 5. mm dia. F (mm). dia. +0.5 5.7 dia. +0.5 0 0 F E- Proximity Sensors

Pre-wired s (Shielded) Mounting Holes Outer diameter M5 M8 M F F (mm) 5.5 dia. +0.5 8.5 dia. +0.5.5 dia. +0.5 0 0 0 fig. EE-X# EE_9 9.7 dia. 5 7.5 8 5 Pre-wired s (Unshielded) (see note) M5 x 0.5 Indicator Two clamping nut Two toothed washers Note: Round vinyl-insulated cable (oil-and vibration-resistive), 0.mm, cores.9 dia. Standard length: m, The cable can be extended up to 00m fig. EE-XD# EEG-XR5B#/C# 5 dia. 6 0 8 7 EE-XD# EEG-XR5B#/C# EE_6 EE_0 fig.5 EE-XMD# EEG-XMB#/C# 5 dia. 6 6 0 8 7 EE-XMD# EEG-XMB#/C# EE_0 EE_0 M8 x (see note) Two clamping nut Toothed washers Note: Round vinyl-insulated cable dia. (0.08 dia. x 60), / cores dia. (0.08 dia x 6/0) for robotics cable models Standard length: m 6. dia. M8 x (see note) Two clamping nut Two toothed washers Note: Round vinyl-insulated cable dia. (0.08 dia. x 60), / cores dia. (0.08 dia. x 6/0) for robotics cable models Standard length: m fig.6 EE-XR5Y# 5 dia. M8 x 6 0 8 (see note) Two clamping nut Toothed washers 7 EE_ Note: Round vinyl-insulated cable dia. (0.08 dia x 60), cores Standard length: m fig.7 EE-XMY# 5 dia. 6. dia. 6 M8 x 0 6 8 7 EE_ (see note) Two clamping nut Toothed washers Note: Round vinyl-insulated cable dia. (0.08 dia x 60), cores Standard length: 00m EE/EEG fig.8 EE-XD# EEG-XB#/C# EE-XD# EEG-XB#/C# EE_7 EE_8 fig.9 EE-X8MD# EEG-X5MB#/C# EE-X8MD# EEG-X5MB#/C# EE_55 EE_ dia. 7 8 0 9 dia. 7 7 8 0 9 M x (see note) Two clamping nut Toothed washers Note: Round vinyl-insulated cable dia. (0.08 dia. x 60), / cores dia. (0.08 dia. x 6/0) for robotics cable models Standard length: m 9 dia. M x (see note ) Two clamping nut Two toothed washers Note: Round vinyl-insulated cable dia. (0.08 dia. x 60), / cores dia. (0.08 dia x 6/0) for robotics cable models Standard length: m EE/EEG E-5

fig.0 EE-XY# dia. 7 8 0 9 EE_ fig. EE-X5MY# dia. 8 7 7 0 9 EE_6 M x (see note) Two clamping nut Toothed washer Note: Round vinyl-insulated cable dia. (0.08 dia. x 60), cores Standard length: m 9 dia. M x Toothed washer (see note) Two clamping nut Note: Round vinyl-insulated cable dia. (0.08 dia. x 60), cores Standard length: m Pre-wired s (Shielded) Pre-wired s (Unshielded) fig. EE-X7D#/EEG-X5B#/C# EE-X5Y# fig. EE-XMD#/EEG-X0MB#/C# EE-X0MY# 9 dia. 8 0 9 dia. 0 8 0 EE-X7D# EEG-X5B#/C# EE-X5Y# M8 x EE_ EE_8 (see note) Two clamping nut Toothed washer Note: Round vinyl-insulated cable dia. (0. dia. x 5), / cores 6 dia. (0.08 dia. x 6/7) for robotics cable models Standard length: m EE-XMD# EEG-X0MB#/C# EE-X0MY#.8 dia. EE_6 EE_0 M8 x (see note ) Two clamping nut Toothed washer Note: Round vinyl-insulated cable 6 dia. (0. dia. x / cores 6 dia. (0.08 dia. x 6/7) robotics cable models Standard length: m fig.5 EE-X0D#/EEG-X0B#/C# EE-X0Y# fig.6 EE-X0MD#/EEG-X8MB#/C# EE-X8MY#.dia. 6 5 8 0 8 dia. 6 5 0 (see note) 6.8 dia. (see note) EE-X0D# EEG-X0B#/C# EE-X0Y# M0 x.5 EE_07 EE_06 Two clamping nut Toothed washer Note: Round vinyl-insulated cable dia. (0. dia. x 5), / cores 6 dia. (0.08 dia. x 6/7) for robotics cable models Standard length: m EE-X0MD# EEG-X8MB#/C# EE-X8MY# M0 x.5 Two clamping nut Toothed washer Note: Round vinyl-insulated cable dia. (0. dia. x 5), EE_5 / cores 6 dia. (0.08 dia. x 6/7) for robotics cable models EE_7 Standard length: m E-6 Proximity Sensors

M8 Connector s (Shielded) M8 Connector s (Unshielded) fig.7 EE-XD#-MG/EEG-XR5B#/C# fig.8 EE-XMD#-MG/EEG-XMB#/C# 5 dia. 6 9 8 M8 x 5 dia. 6 9 6 8 M8 x 6. dia. M8 x EE_59 Two clamping nut Toothed washer EE_60 M8 x Two clamping nut Toothed washer M Connector s (Shielded) M Connector s (Unshielded) fig.7 EE-XD#-M(G) EEG-XR5B#/C#-M fig.8 EE-XMD#-M(G) EEG-XMB#/C#-M 5 dia. 0 6 8 M x 5 dia. 6 0 6 8 M X 6. dia. M8 x Two clamping nut Toothed washer M8 X Two clamping nut Toothed washer EE_7 EE_ EE/EEG EE/EEG E-7

fig.9 EE-XD#-MG EEG-XB#/C# fig.0 EE-X8MD#-MG EEG-X5MB#/C# dia. 7 8 0 M x dia. 7 7 8 0 M x 9 dia. M x Two clamping nut Toothed washer M x Two clamping nut Toothed washer EE_ EE_57 fig. EE-XY#-M fig. EE-X5MY#-M dia. 7 8 5 0 M x 9 dia. 7 7 5 8 0 M x 9 dia. EE_ M x Two clamping nut Toothed washers EE_7 M x Two clamping nut Toothed washer fig. EE-X7D#-MG/EEG-X5B#/C# EE-X5Y#-M fig. EE-XMD#-M(G)/EEG-X0MB#/C# EE-X0MY#-M 9 dia. 8 5 0 M x 9 dia. 0 5 8 0 M x.8 dia. M8 x Two clamping nut Toothed washer M8 x Two clamping nut Toothed washer EE_9 EE_ fig.5 EE-X0D#-M(G)/EEG-X0B#/C# EE-X0Y#-M fig.6 EE-X0MD#-M(G)/EEG-X8MB#/C# EE-X8MY#-M dia. 6 5 58 0 dia. 6 5 58 0 6.8 dia. M0 x.5 M x Two clamping nut Toothed washer M0 x.5 M x Two clamping nut Toothed washer EE_0 EE_ Mounting Holes Outer diameter M5 M8 M M8 M0 F F (mm) 5.5 dia. +0.5 8.5 dia. +0.5.5 dia +0.5 8.5 dia. +0.5 0.5 dia. +0.5 0 0 0 0 E-8 Proximity Sensors

Connector Extension s (Shielded) Mounting Holes F Outer diameter M M8 M0 F (mm).5 dia +0.5 8.5 dia. +0.5 0.5 dia. +0.5 0 0 0 fig.9 EE-XD-MGJ EE-XD-MJ-T dia. 7 8 9 0 M x EE_6 M x (see note) Two clamping nut Note: Toothed washer Round vinyl-insulated cable dia. (0.08 dia. x 60) Standard length: 0.m fig. EE-X7D-MGJ EE-X7D-MJ-T 9 dia. 8 0 M x EE_5 M8 x (see note) Two clamping nut Note: Toothed washer Round vinyl-insulated cable 6 dia. (0. dia. x 5) Standard length: 0.m fig. EE-X0D-MGJ EE-X0D-MJ-T dia. 6 5 8 0 M x (see note) EE_05 M0 x.5 Two clamping nut Toothed washer Note: Round vinyl-insulated cable 6 dia. (0. dia. x 5) Standard length: 0.m EE/EEG Connector Extension s (Unshielded) fig.0 EE-X8MD-MGJ dia. 7 7 8 9 0 M x EE_58 9 dia. M x (see note) Two clamping nut Note: Toothed washer Round vinyl-insulated cable dia. (0.08 dia. x 60) Standard length: 0.m EE/EEG E-9

fig. EE-XMD-MGJ 9 dia. 0 8 0 M x.8 dia. EE_5 M8 x (see note) Two clamping nut Toothed washer Note: Round vinyl-insulated cable 6 dia. (0. dia. x 5) Standard length: 0.m fig. EE-X0MD-MGJ dia. 6 8 5 0 M x 6.8 dia. (see note) EE_ M0 x.5 Two clamping nut Toothed washer Note: Round vinyl-insulated cable 6 dia. (0. dia. x 5) Standard length: 0.m Dimensions of connection with proximity sensor and sensor I/O connector Shielded Unshielded Dimensions of connection with XSF <Straight type connection> <Straight type connection> Size Length L L M8 Approx.75 Approx.6 L L M* DC s Approx.80 Approx.67 AC s Approx.85 Approx.7 <L type connection> <L type connection> M8 Approx.85 Approx.7 M0 Approx.90 Approx.77 Dimensions of connection with XSF Size Length L L M8 Approx.65 Approx.5 L L * Only in the diameter M of a sensor, dimensions (sensor full length) differ for AC or DC. Therefore, please consider that a connection with I/O connector changes dimensions. Accessories (Order Separately) Sensor I/O Connectors E-0 E-0 Proximity Sensors

MEMO EE/EEG EE/EEG E-

Spatter immune Proximity Sensors EEQ A Series of Spatter-resistant Proximity Sensors with a Teflon-coated Metal Housing Long sensing-distance type included in series. * Teflon is a registered trademark of Dupont Company and Mitsui Dupont Chemical Company for their fluoride resin. Ordering Information Sensors Pre-wired s Long-distance type Shape Sensing distance Output specifications Operating status Shielded M M8 mm 8mm DC -wire EEQ-XX EEQ-X8X M0 5mm EEQ-X5X Standard Shape Sensing distance Output specifications Operating status Shielded M M8 mm 7mm DC -wire EEQ-XD EEQ-X7D M0 0mm EEQ-X0D Plug-in s Long-distance type Shape Sensing distance Output specifications Operating status Shielded M M8 M0 mm 8mm 5mm DC -wire models () and () Pin arrangement EEQ-XX-MJ EEQ-X8X-MJ EEQ-X5X-MJ Standard Standard Sensing distance Output specifications Operating status Shielded M M8 M0 mm 7mm 0mm DC -wire models () and () Pin arrangement EEQ-XD-MGJ EEQ-X7D-MGJ EEQ-X0D-MGJ E- Proximity Sensors

Accessories (Order Separately) Sensor I/O Connectors Shape Cable length Sensor I/O Connectors Applicable proximity sensor models Straight type L type Straight type L type m XSF-D-DCO-A 5 m XSF-D-GCO-A m XSF-D-DCO-A 5 m XSF-D-GCO-A m XSF-D-DA0-A 5 m XSF-D-GA0-A m XSF-D-DA0-A 5 m XSF-D-GA0-A EEQ-X#X-MJ EEQ-X#D-MGJ Rating/Performance Long-distance type EEQ-XX EEQ-X8X EEQ-X5X Item EEQ-XX-MJ EEQ-X8X-MJ EEQ-X5X-MJ Sensing distance mm ±0% 8 mm ±0% 5 mm ±0% Setting distance* 0 to. mm 0 to 6. mm 0 to mm Differential distance 5% max. of sensing distance Standard sensing object (mild steel) x x mm 8 ± 8 ± mm 0 ± 0 ± mm Response frequency* Control output Switching capacity Residual voltage* Operating status (with sensing object approaching) Protective circuits Ambient temperature khz 0.5 khz 0.5 khz to 00 ma 5.0 V max. (under load current of 00 ma with cable length of m) C models: Surge absorber, load short-circuit protection Operating: -5 C to 70 C, Storage: -0 C to 85 C (with no icing or condensation) ±5% max. of sensing distance at C within temperature range Temperature influence of -0 C to 85 C ±0% max. of sensing distance at C within temperature range of -5 C to70 C Voltage influence ±% max. of Sensing distance in rated voltage range ±5%. Shock resistance Destruction:,000 m/s for 0 times each in X, Y, and Z directions Connection method Pre-wired (standard length: m) Connector Extension s Weight Pre-wired 65 g Approx. 0 g Approx. 90 g (Packed Junction state) connector Approx. 0 g Approx. 0g Approx. 90 g *. Use within a range where the green indicator is lit. *. The response frequencies for DC switching are average values. *. Since residual voltage is 5 V, use it after checking interface requirements with the connection devices. ±5% max. of sensing distance at C within temperature range of -5 C to 70 C EEQ EEQ E-

Standard EEQ-XD EEQ-X7D EEQ-X0D Item EEQ-XD-MGJ EEQ-X7D-MGJ EEQ-X0D-MGJ Sensing distance mm ±0% 7 mm ±0% 0 mm ±0% Setting distance 0 to. mm 0 to 5.6 mm 0 to 8 mm Differential distance 0% max. Standard sensing object (mild steel) x x mm 8 x 8 x mm 0 x 0 x mm Response frequency khz 500 Hz 00 Hz Control output * The response frequencies for DC switching are average values measured on condition that the distance between each sensing object is twice as large as the size of the sensing object and the sensing distance set is half of the maximum sensing distance. General Switching capacity Residual voltage Operating status (with sensing object approaching) Protective circuits Ambient temperature to 00 ma.0 V max. (under load current of 00 ma with cable length of m) Surge absorber, short-circuit protection Operating/Storage: -5 C to 70 C (with no icing or condensation) Temperature influence ±0% max. of sensing distance at C within temperature range of -5 C and 70 C Voltage influence ±.5% max. of Sensing distance within rated voltage range ±5%. Shock resistance Connection method Weight (Packed state) Destruction:,000 m/s for 0 times each in X, Y, and Z directions EEQ-X#D: Pre-wired models (Standard length: m) EEQ-X#D-MGJ type: Connector relay models (Standard length: 00 mm) Pre-wired Approx. 0 g Approx. 60 g Approx. 0 g Junction connector Approx. 80 g Approx. 0 g Approx. 90 g Item Rated supply voltage (operating voltage) Leakage current Indicator lamp Ambient humidity Insulation resistance Dielectric strength Vibration resistance Protective structure Material Accessories EEQ-XX EEQ-XX-MJ EEQ-XD EEQ-XD-MGJ EEQ-X8X EEQ-X8X-MJ EEQ-X7D EEQ-X7D-MGJ Ferrous metal (Sensitivity lowers with non-ferrous metals) to VDC (0 to 0 VDC), ripple (p-p): 0% max. 0.8 ma max. (red), operation setting indicator (green) Operating/Storage: 5% to 95%RH (with no condensation) 50 MW min. (at 500 VDC) between energized parts and case,000 VAC for min between energized parts and case 0 to 55 Hz,.5 mm double amplitude for hours each in X, Y, and Z directions IEC6059 IP67 Case Teflon resin coating (base: brass) * Sensing surface Teflon resin * Instruction manual * Teflon is a registered trademark of Dupont Company and Mitsui Dupont Chemical Company for their fluoride resin. EEQ-X5X EEQ-X5X-MJ EEQ-X0D EEQ-X0D-MGJ E- Proximity Sensors

Characteristic data (typical) Sensing Distance vs. Sensing Object EEQ-XX(-MJ) EEQ-X8X(-MJ) EEQ-X5X(-MJ) Sensing distance X (mm) 5 #d t=mm X Mild steel Stainless steel (SUS0) Copper Brass Sensing distance X (mm) 0 8 6 #d t=mm X Mild steel Stainless steel (SUS0) Brass Copper Sensing distance X (mm) 0 6 8 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum Copper 0 5 0 5 0 5 0 5 Side length of sensing object d (mm) 0 0 0 0 0 50 Side length of sensing object d (mm) 0 0 0 0 0 50 60 70 80 Side length of sensing object d (mm) EEQ-XD(-MGJ) EEQ-X7D(-MGJ) EEQ-X0D(-MGJ) Sensing distance X (mm).0.5.0.5.0.5.0 0.5 #d t=mm X Mild steel Stainless steel (SUS0) Aluminum Brass Copper Sensing distance X (mm) 0 9 8 7 6 5 EEQ #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum Copper Sensing distance X (mm) 0 8 6 #d t=mm X Aluminum Mild steel Stainless steel (SUS0) Brass Copper 0 5 0 5 0 5 0 5 Side length of sensing object d (mm) 0 5 0 5 0 5 0 5 0 5 Side length of sensing object d (mm) 0 5 0 5 0 5 0 5 0 5 50 55 Side length of sensing object d (mm) EEQ E-5

Output Circuit Diagram Long-distance type Operating status Timing chart Output circuit Brown +V EEQ-XX EEQ-X8X EEQ-X5X EEQ-XX-MJ EEQ-X8X-MJ EEQ-X5X-MJ Sensing object Non-sensing zone Unstable sensing zone (%) 00 80(TYP) Rated sensing distance Setting point Stable sensing zone 0 Lit Not lit Lit Not lit Green indicator Red indicator Control output Main circuit Blue Note:. The load can be connected to either the +V or the 0-V line.. Since there is no polarity, there is no need to pay attention to the brown or blue polarity. Wiring 0V Note: Terminals B and C are not used. Standard Operating status Timing chart Output circuit EEQ-XD EEQ-X7D EEQ-X0D EEQ-XD-MGJ EEQ-X7D-MGJ EEQ-X0D-MGJ Sensing object Non-sensing zone Unstable sensing zone Setting point Stable sensing zone (%) 00 80(TYP) 0 Rated sensing distance Main circuit Lit Green indicator Not lit Main circuit Note: The can be connected to either the +V or the 0-V line. Wiring Brown Blue +V 0V Lit Red indicator Not lit Control output A B D C Note: Terminals B and C are not used. Connecting Plug-in models EEQ-X#X-MJ EEQ-X#D-MGJ Connection Connector relay type EEQ-X#X-MJ Main circuit Sensor I/O Connectors XSF-D#-#C0-A Brown not connected Blue (+) Black (-) Connector relay type EEQ-X#D-MGJ Main circuit Sensor I/O Connectors XSF-D#-#A0-A Brown (+) Blue (-) E-6 Proximity Sensors

Precautions Correct Use Design Effects of Surrounding Metal Provide a minimum distance between the Sensor and the surrounding metal as shown in the table below. l Mounting Do not tighten the nut with excessive force. A washer must be used with the nut. Shielded d dia. D m l m n Effects of Surrounding Metal (Unit: mm) Item l d D m n EEQ-XX(-MJ). 8. 8 EEQ-X8X(-MJ).6 7.6 7 EEQ-X5X(-MJ) 6 5 6 5 5 Note:.The table below shows the tightening torques for part A and part B nuts. In the previous examples, the nut is on the sensor head side (part B) and hence the tightening torque for part B applies. If this nut is in part A, the tightening torque for part A applies instead..the table below shows the value of tightening torques when using toothed washers. EEQ-XX(-MJ) Torque Part A Part B Length (mm) Torque 0 Nm Part B Part A Torque EEQ-XD(-MGJ) 8 8 EEQ-X8X(-MJ) --- 70 Nm EEQ-X7D(-MGJ) 0 8 0 0 7 EEQ-X5A(-MJ) 80 Nm EEQ-X0D(-MGJ) 0 0 5 Mutual Interference If more than one Proximity Sensor is installed face to face or in parallel, make sure that the distances between two Units adjacent to each other are the same as or larger than the corresponding values shown in the following table. EEQ-XD(-MGJ) 5 Nm --- EEQ-X7D(-MGJ) 9 EEQ-X0D(-MGJ) 6 9 Nm 78 Nm A B Mutual Interference(Unit: mm) Item A B EEQ EEQ-XX(-MJ) 0 0 EEQ-X8X(-MJ) 60 5 EEQ-X5X(-MJ) 0 90 EEQ-XD(-MGJ) 0 0 EEQ-X7D(-MGJ) 50 5 EEQ-X0D(-MGJ) 00 70 EEQ E-7

Dimensions (Unit: mm) Pre-wired s Long-distance type EEQ-XX EEQ_0 dia. 7 8 0 9 M x Indicator * Two, clamping nuts Toothed washer * *: Vinyl-insulated round cable (flame-resistant), dia. / conductors (conducting cross-sectional area: 0. mm /insulator diameter:. mm Standard length: m Cable extension (through a single metal conduit): 00m max. *: (red) and setting indicator (green). EEQ-X8X EEQ-X5X EEQ_0 EEQ_05 9 dia. 8 0 dia. 6 5 8 0 M8 x Indicator * Two, clamping nuts Toothed washer * M0 x.5 Indicator * Two, clamping nuts * *: Vinyl-insulated round cable (flame-resistant), 6 dia. / conductors (conducting cross-sectional area: 0.5 mm /insulator diameter:.9 mm Standard length: m Cable extension (through a single metal conduit): 00m max. *: (red) and setting indicator (green). Toothed washer *: Vinyl-insulated round cable (flame-resistant), 6 dia. / conductors (conducting cross-sectional area: 0.5 mm /insulator diameter:.9 mm Standard length: m Cable extension (through a single metal conduit): 00m max. *: (red) and setting indicator (green). Standard EEQ-XD EEQ_0 dia. 7 8 7.6 5 M x Indicator ** Two, clamping nuts (Teflon coating) Two, toothed washer EEQ-X7D EEQ-X0D *: Vinyl-insulated round cable (flame-resistant), 6 dia., conductors (conducting cross-sectional area: 0.5 mm /insulator diameter:.9 mm Standard length: m Cable extension (through a single metal conduit): 00m max. *: (red) and setting indicator (green). EEQ_05 EEQ_0 9 dia. 7 9 6 dia. 6 8 56 0 M8 x Indicator * * Two, clamping nuts (Teflon coating) Two, toothed washer *: Vinyl-insulated round cable (flame-resistant), 6 dia., conductors (conducting cross-sectional area: 0.5 mm /insulator diameter:.9 mm Standard length: m Cable extension (through a single metal conduit): 00m max. *: (red) and setting indicator (green). M0 x.5 5 Indicator * Two, clamping nuts (Teflon coating) Two, toothed washer *: Vinyl-insulated round cable (flame-resistant), 6 dia., conductors (conducting cross-sectional area: 0.5 mm /insulator diameter:.9 mm Standard length: m Cable extension (through a single metal conduit): 00m max. *: (red) and setting indicator (green). * E-8 Proximity Sensors

Plug-in s Long-distance type EEQ-XX-MJ EEQ_07 dia. 7 8 9 0 M x Toothed washer Indicator * Two, clamping nuts * M x *: Vinyl-insulated round cable (flame-resistant), dia. (Conducting cross-sectional area: 0. mm ; insulator diameter:. mm) Standard length: 00 mm *: (red) and setting indicator (green). EEQ-X8X-MJ EEQ-X5X-MJ EEQ_08 EEQ_09 9 dia. 8 0 dia. 6 5 8 0 M8 x Toothed washer Indicator * Two, clamping nuts * M x *: Vinyl-insulated round cable (flame-resistant), 5 dia. (Conducting cross-sectional area: 0.5 mm ; insulator diameter:.9 mm) Standard length: 00 mm *: (red) and setting indicator (green). M0 x.5 Toothed washer Two, clamping nuts * Indicator * M x *: Vinyl-insulated round cable (flame-resistant), 5 dia. (Conducting cross-sectional area: 0.5 mm ; insulator diameter:.9 mm) Standard length: 00 mm *: (red) and setting indicator (green). Standard EEQ-XD-MGJ EEQ_0 8 dia. 7.6 7 5 *: Vinyl-insulated round cable (flame-resistant), 6 dia. Standard length: 00 mm *: (red) and setting indicator (green). EEQ M x Indicator * * Two, clamping nuts (Teflon coating) Two, toothed washer M x (aluminum) EEQ-X7D-MGJ EEQ-X0D-MGJ EEQ_06 EEQ_0 9 dia. 9 7 6 *: Vinyl-insulated round cable (flame-resistant), 6 dia. Standard length: 00 mm *: (red) and setting indicator (green). M x (aluminum) dia. 6 56 8 0 *: Vinyl-insulated round cable (flame-resistant), 6 dia. Standard length: 00 mm *: (red) and setting indicator (green). M x (aluminum) M8 x Mounting Holes F Indicator * * Two, clamping nuts (Teflon coating) Two, toothed washer M0 x.5 Outer diameter M M8 M0 F (mm).5 dia +0.5 8.5 dia. +0.5 0.5 dia. +0.5 5 * Indicator * Two, clamping nuts (Teflon coating) Two, toothed washer EEQ E-9

Inductive Proximity Sensor EFQ Spatter-Resistant Sensor for Welding Application * Teflon is a registered trademark of Dupont Company and Mitsui Dupont Chemical Company for their fluoride resin. Ordering Information Shielded Shape M M8 M0 Sensing distance mm 5mm 0mm Output specifications DC -wire DC -wire NPN DC -wire DC -wire NPN AC -wire s DC -wire DC -wire NPN AC -wire s Operating status EFQ-XD EFQ-XE EFQ-X5D EFQ-X5E EFQ-X5Y EFQ-X0D EFQ-X0E EFQ-X0Y Characteristic data (typical) Sensing Distance vs. Sensing Object EFQ-X# EFQ-X5# EFQ-X0# Sensing distance X (mm)...8.6.. 0.8 0.6 0. 0. #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum Sensing distance X (mm) 7 6 5 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum Sensing distance X (mm) 0 9 8 7 6 5 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum 0 5 0 5 0 5 Side length of sensing object d (mm) 0 5 0 5 0 5 0 5 0 50 Side length of sensing object d (mm) 0 0 0 0 0 50 60 Side length of sensing object d (mm) E-0 Proximity Sensors

Rating/Performance EFQ-XE EFQ-X5E EFQ-X0E Item EFQ-XD EFQ-X5D, EFQ-X5Y EFQ-X0D, EFQ-X0Y Sensing distance mm ±0% 5 mm ±0% 0 mm ±0% Setting distance 0 to.6 mm 0 to mm 0 to 8 mm Differential distance E, Y models: 0% max. of sensing distance Ferrous metal (Sensitivity lowers with non-ferrous metals) Standard sensing object (mild steel) x x mm 8 x 8 x mm 0 x 0 x mm Response frequency* Power supply (Operating voltage range) Current consumption Leakage current Control output Switching capacity Residual voltage Indicator lamp Operating status (with sensing object approaching) Protective circuits Ambient temperature Ambient humidity E models:.5 khz D models: 800 Hz E models: 600 Hz, D models: 500 Hz Y models: 5 Hz E models: to VDC, ripple (p-p) : 0% max., (0 to 0 VDC) D models: to VDC, ripple (p-p) : 0% max., (0 to 6 VDC) E models: 7 ma max. D models: 0.8 ma max., Y models: 5 to 00 ma E models: 00 ma max., D models: 5 to 00 ma DC, Y models: 5 to 00 ma E models: V max. (load current: 00 ma with cable length: m) Y models: Refer to the Specifications. D models:.0 V max. (under load current of 00 ma with cable length of m) E,D models: detection indicator (red), Y models: operation indicator (red) E models, D models and Y models: E models: Protection for reverse polarity, load short circuit, surge voltage Operating/Storage: -5 C to 70 C (with no icing or condensation) Operating/Storage: 5% to 95%RH (with no condensation) Temperature influence 0% max. of sensing distance at C within temperature range of -5 C to 70 C Voltage influence E models: ±.5% max. of sensing distance within rated voltage range ±5% Insulation resistance Dielectric strength Vibration resistance Shock resistance Protective structure 50 MW min. (at 500 VDC) between energized parts and case E, D models:,000 VAC 50/60 Hz for min between energized parts and case E models: 00 Hz, D models: 00 Hz Destruction: 0 to 55 Hz,.5 mm double amplitude for hours each in X, Y, and Z directions Destruction: 500 m/s for 0 times each in X, Y, and Z directions IEC6059 IP67 Connection method Pre-wired models (standard length: m) Destruction:,000 m/s for 0 times each in X, Y, and Z directions Weight (Packed state) Approx. 70 g Approx. 0 g Approx. 70 g Case Material Sensing surface Accessories Teflon * Instruction manual *. The response frequencies for DC switching are average values measured on condition that the distance between each sensing object is twice as large as the size of the sensing object and the sensing distance set is half of the maximum sensing distance. *. Teflon is a registered trademark of Dupont Company and Mitsui Dupont Chemical Company for their fluoride resin. EFQ EFQ E-

Output Circuit Diagram Operating status Output specifications Timing chart Output circuit NPN EFQ-XE EFQ-X5E EFQ-X0E Sensing object (between black and blue leads) Output voltage (between black and blue leads) Operation indicator Yes No Operates Releases H L Main circuit 00W.7kW.W Brown (see note ) Black Output (see note ) Blue Note:. 00 ma max.(load current). When a transistor is connected Tr +V 0V Brown +V DC -wire EFQ-XD EFQ-X5D EFQ-X0D Sensing Yes object No Operates Releases Operation indicator Main circuit Blue Note: The load can be connected to either the +V or the 0-V line. 0V AC -wire s EFQ-X5Y EFQ-X0Y Sensing object Operation indicator Yes No Operates Releases Main circuit Brown Blue Precautions Correct Use Design Effects of Surrounding Metal Provide a minimum distance between the Sensor and the surrounding metal as shown in the table below. l Mutual Interference (Unit: mm) Item A B EFQ-X# 0 0 EFQ-X5# 50 5 EFQ-X0# 00 70 B A m d dia. D l m n Installation Do not tighten the nut with excessive force. A washer must be used with the nut. Effects of Surrounding Metal (Unit: mm) Item l d D m n EFQ-X# 8 8 EFQ-X5# 0 8 0 0 7 EFQ-X0# 0 0 5 Mutual Interference If more than one Proximity Sensor is installed face to face or in parallel, ensure that the distances between two Units adjacent to each other are the same as or larger than the corresponding values shown in the following table. Note: The table below shows the value of tightening torques when using toothed washers. Torque EFQ-X# EFQ-X5# EFQ-X0# Others Chemical resistance Tensile strength (torque) 0.98 Nm Nm E- Proximity Sensors

Dimensions (Unit: mm) EFQ-XE EFQ_0 EFQ-XD EFQ_0 dia. 7 8 7 dia. 7 8 7 M x 6 (see note) Indicator Two, clamping nut Two, Toothed washers Note: Oil-resistant, vibration-resistant, and fire-retardant vinyl-insulated round cord, 6 dia. x cores, standard length: m The cord can be extended in an independent conduit for 00 m maximum. M x 6 (see note) Indicator Two, clamping nut Two, Toothed washers Note: Oil-resistant, vibration-resistant, and fire-retardant vinyl-insulated round cord, 6 dia. x cores, standard length: m The cord can be extended in an independent conduit for 00 m maximum. EFQ-X5E EFQ_0 EFQ-X5D EFQ-X5Y EFQ_0 9 dia. 9 0 7 9 dia. 9 0 7 M8 x 8 (see note) Indicator Two, clamping nut Two, Toothed washers Note: Oil-resistant, vibration-resistant, and fire-retardant vinyl-insulated round cord, 6 dia. x cores, standard length: m The cord can be extended in an independent conduit for 00 m maximum. M8 x 8 (see note) Indicator Two, clamping nut Two, Toothed washers Note: Oil-resistant, vibration-resistant, and fire-retardant vinyl-insulated round cord, 6 dia. x cores, standard length: m The cord can be extended in an independent conduit for 00 m maximum. EFQ-X0E EFQ_0 EFQ-X0D EFQ-X0Y EFQ_0 dia. 6 57 50 8 dia. 6 57 50 8 EFQ (see note) (see note) Indicator M0 x.5 8 Two, clamping nut Two, Toothed washers Note: Oil-resistant, vibration-resistant, and fire-retardant vinyl-insulated round cord, 6 dia. x cores, standard length: m The cord can be extended in an independent conduit for 00 m maximum. M0 x.5 8 Indicator Two, clamping nut Two, Toothed washers Note: Oil-resistant, vibration-resistant, and fire-retardant vinyl-insulated round cord, 6 dia. x cores, standard length: m The cord can be extended in an independent conduit for 00 m maximum. Mounting Holes F EFQ-X# EFQ-X5# EFQ-X0# F (mm).5 mm dia. 8.5 mm dia. 0.5 mm dia. +0.5 0 +0.5 0 +0.5 0 EFQ E-

Compact Square Inductive Proximity Sensor ES World's Smallest Square Sensor with Built-in Amplifier Features 5.5 mm World's Smallest Sensor with Built-in Amplifier The 5.5 mm x 5.5 mm type permits smaller, space-saving machines and devices. Adopted for more compact machines and devices. 5.5mm.5 times Long Sensing Distance (Compared to conventional models) Long Sensing Distance: (ES-#,.6 mm) (ES-#,.5 mm) Permits stable detection of object flows..5mm.5mm ES-W# TL-WR5MC khz A khz response frequency is achieved matching increased machine and device speed. IP67 High-Speed Response Environment-Resistant Types Full sealing structure housing, degree of protection IEC6059 IP67. /0 Low Current Consumption (Compared to conventional models) Significantly lower current consumption. The 0.8 ma (for VDC) leakage current for the DC -wire type has a ratio of approximately /0 compared to the conventional DC -wire type. Optimum solution for multiple-sensor applications such as cam switches. E- Proximity Sensors

Ordering Information Sensors DC -wire s Shape Sensing surface Sensing distance Unshielded * s with different response frequency are available ( only). These model numbers take the form ES-###B (e.g., ES-WB) DC -wire s * s with different response frequency are available ( only). These model numbers take the form ES-###B (e.g., ES-WB) Accessories (Order Separately) Mounting Brackets Operating status NC Front face ES-W * ES-W End face.6mm ES-Q * ES-Q Front face ES-W * ES-W.5mm End face ES-Q * ES-Q Output Shape Sensing surface Sensing distance Operating status specifications NC Front face ES-W* ES-W.6mm End face ES-Q* ES-Q NPN Front face ES-W* ES-W Unshielded.5mm End face ES-Q* ES-Q Front face ES-W5* ES-W6.6mm End face ES-Q5* ES-Q6 PNP Front face ES-W5* ES-W6.5mm End face ES-Q5* ES-Q6 Shape Quantity Remarks Y9E-CR6 Provided with ES-### Y9E-CR5 Provided with ES-### Y9E-DR6 --- ES Y9E-DR5 --- Nomenclature ES - # # # # A B C D E A Compact square series B Sensing direction C Size and sensing distance W: Front face sensing (standard sensing object) Q: End face sensing : 5.5 x 5.5 mm,.6 mm (iron) : 8 x 8 mm,.5 mm (iron) D Output : DC -wire : DC -wire NC : DC -wire NPN : DC -wire NPN NC 5: DC -wire PNP 6: DC -wire PNP NC E Different response frequency No: Standard B: Different response frequency ES E-5

Rating/Performance DC -wire s ES-W ES-Q ES-W ES-Q Item ES-W ES-Q ES-W ES-Q Sensing surface Front face End face Front face End face Sensing distance.6 mm ±0%.5 mm ±5% Setting distance 0 to. mm 0 to.9 mm Differential distance 0% max. Ferrous metal (Sensitivity lowers with non-ferrous metals) Standard sensing object Response frequency Rated supply voltage (operating voltage) Leakage current Control output Indicator lamp Switching capacity Residual voltage Operating status (with sensing object approaching) * The response frequencies for DC switching are average values measured under the condition that the distance between each sensing object is twice as large as the size of the sensing object and the sensing distance set is half of the maximum sensing distance. DC -wire s Iron, x x mm khz min. to VDC (0 to 0 VDC), ripple (p-p): 0% max. 0.8 ma max. to 50 ma DC max. V max. (under load current of 50 ma with cable length of m) Iron, 5 x 5 x mm ## models: (red LED), Operation set indicator(green LED) ## models: (red LED) ## models: ## models: NC ES-W ES-Q ES-W ES-Q ES-W5 ES-Q5 ES-W5 ES-Q5 Item ES-W ES-Q ES-W ES-Q ES-W6 ES-Q6 ES-W6 ES-Q6 Sensing surface Front face End face Front face End face Front face End face Front face End face Sensing distance.6 mm ±0%.5 mm ±5%.6 mm ±0%.5 mm ±5% Setting distance 0 to. mm 0 to.9 mm 0 to. mm 0 to.9 mm Differential distance Standard sensing object Response frequency Rated supply voltage (operating voltage) Current consumption Control output Indicator lamp Switching capacity Residual voltage Operating status (with sensing object approaching) 0% max. Ferrous metal Iron, x x mm Iron, 5 x 5 x mm Iron, x x mm Iron, 5 x 5 x mm khz min. to VDC (0 to 0 VDC), ripple (p-p): 0% max. ma max. ( VDC, unload) NPN open collector 00 ma max. (0 VDC max.) V max. (under load current of 50 ma with cable length of m) (orange) ## models: ## models: NC PNP open collector 50 ma max. (0 VDC max.) ##5 models: ##6 models: NC * The response frequencies for DC switching are average values measured under the condition that the distance between each sensing object is twice as large as the size of the sensing object and the sensing distance set is half of the maximum sensing distance. E-6 Proximity Sensors

Specifications Item ES-### Protective circuits Reverse polarity connection and surge absorber Ambient temperature Operating: -5 C to 70 C, Storage: -0 C to 85 C (with no icing or condensation) Ambient humidity Operating: 5% to 90%RH, Storage: 5% to 95%RH (with no condensation) Temperature influence ±5% max. of sensing distance at C in temperature range of -5 C to 70 C Voltage influence ±.5% max. of sensing distance within a range of ±0% of rated supply voltage Insulation resistance 50 MW min. (at 500 VDC) between energized parts and case Dielectric strength,000 VAC for min between energized parts and case Vibration resistance 0 to 55 Hz,.5-mm double amplitude for hours each in X, Y, and Z directions Shock resistance Destruction: 500 m/s for times each in X, Y, and Z directions Protective structure IEC6059 IP67 Connection method Pre-wired models (Standard length: m) Weight (Packed state) Approx. 0 g Material Case Polyarylate Accessories Mounting Brackets Characteristic data (typical) Sensing Distance vs. Sensing Object ES-W#/-Q# ES-W#/-Q# Distance X (mm).5 Iron SUS Distance X (mm) #d t=mm X X Iron Brass SUS 0.5 #d X Copper Aluminum t=mm Aluminum Brass Side length of sensing object d (mm) ES Copper 0 0 0 0 0 50 0 0 0 0 0 50 60 Side length of sensing object d (mm) ES E-7

Output Circuit Diagram DC -wire s Operating status Timing chart Output circuit Non-sensing zone Sensing object Unstable Sensing zone Setting position Stable sensing zone Proximity Sensor ES-W ES-W ES-Q ES-Q (%) 00 80 0 Rated sensing distance Setting indicator (green) (red) Control output Main circuit Brown +V Blue Non-sensing zone Sensing zone 0V Proximity Sensor Sensing object NC ES-W ES-W ES-Q ES-Q (%) Non-sensing zone 00 0 (red) Control output DC -wire s Operating status Output specifications Timing chart Output circuit NC NPN ES-W ES-W ES-Q ES-Q ES-W ES-W ES-Q ES-Q Output transistor (load) (orange) Output transistor (load) (orange) Yes No Yes No Main circuit * Maximum load current: 50 ma Brown Black * Output Blue +V 0V PNP ES-W5 ES-W5 ES-Q5 ES-Q5 Output transistor (load) (orange) Yes No Main circuit Brown Black * +V NC ES-W6 ES-W6 ES-Q6 ES-Q6 Yes No Output transistor (load) (orange) * Maximum load current: 50 ma Blue 0V E-8 Proximity Sensors

Precautions Correct Use Design Effects of Surrounding Metal Provide a minimum distance between the Sensor and the surrounding metal as shown in the table below. Front Surface Sensing Type (Not exceeding the sensor head height) A Proximity Sensor Sensing surface C Sensing surface B Proximity Sensor C Mutual Interference If more than one Sensor is located face to face or in parallel, be sure to maintain enough space between adjacent Sensors to suppress mutual interference as provided in the following diagram,. Front Surface Sensing End Surface Sensing Type Type A B B A (Unit: mm) Length A B C ES-W# 8 0 ES-W# 5 0 End Surface Sensing Type A B B C (Unit: mm) Length A B C ES-Q# 8 ES-Q# 5 0 (Unit: mm) Length A B ES-W(Q)# 50 (0) 0 (5.5) ES-W# 75 (50) 5 (8) Note: The above values in parentheses are applicable when using two sensors with different frequencies. Mounting Tightening torgues Do not tighten the ES-W(Q)#mounting screws to a torque exceeding 0.7 Nm. ES ES E-9

Dimensions (Unit: mm) Sensors ES-W# ES_0 ES-Q# ES_0 If mounting bracket is attached If mounting bracket is attached.6 Sensing surface Indicator * Sensing surface 5.9 8..9 dia. vinyl-insulated round cable, / cores (conductor sectional area: 0.mm, Insulator diameter: 0.9 dia.) ; standard length: m R.5. 5. 5.5 6.. 5.9 Indicator * * ES-W# (red) Setting indicator (green) ES-W# (red) 5.9 8. R.5.9 dia. vinyl-insulated round cable, / cores (conductor sectional area: 0.mm, Insulator diameter: 0.9 dia.) ; standard length: m. 5. 5.5 6. * ES-Q# ES-Q# 5.9. (red) Setting indicator (green) (red) 9 ES-W# ES-W# ES-W5# ES-W6# (orange) 9 ES-Q# ES-Q# ES-Q5# ES-Q6# (red) ES-W# If mounting bracket is attached ES_0 ES-Q# If mounting bracket is attached ES_0.5 Indicator * Sensing surface 0.8.5 0.8 Sensing surface 8. 8 8.9..9 dia. vinyl-insulated round. dia. cable, / cores (conductor sectional area: 0.mm, Insulator diameter: 0.9 dia.) ; standard length: m. dia. mounting holes 5..5. 5.5 0 0. 8 7. 7.8 *ES-W# (red) Setting indicator (green) ES-W# (red) 7. ES-W# ES-W# (orange) ES-W5# ES-W6#. dia..9 dia. vinyl-insulated round cable, / cores (conductor sectional area: 0.m u, Insulator diameter: 0.9 dia.) ; standard length: m 5.. 8.5.5 Indicator *. dia. mounting holes.5..6 8 8. *ES-Q# ES-Q# ES-Q# ES-Q# ES-Q5# ES-Q6# (red) Setting indicator (green) (red) (orange) Accessories (Order Separately*) Mounting Brackets Y9E-CR6 Material: Stainless steel (SUS0). 5.9 8. 0. 7. 5 5. 8..5.5 R.5 R. Two, R. 5.6 6....5 5.7 0. Two, R0.7. Mounting Brackets Y9E-CR5 Material: Stainless steel (SUS0).5.5 0.8 0.. dia.. 8.. 0. * Provided with ES-###..5 9.5 M Mounting Holes 7.5. dia. screw depth min. * Provided with ES-## Mounting Holes M screw depth 8 min. dia.. screw depth min..5 Mounting Brackets Y9E-DR6 Two, R.6 7 5. Four, R. Mounting Brackets Y9E-DR5 7.8. 6. Material: Stainless steel (SUS0) R.6 7. 5.6 5. 0. 5 0.9 Mounting Holes Two, M Material: Stainless steel (SUS0) Two, R.6. R.6 8 5 7 Four, R 0. Mounting Holes Two, M 7 E-50 Proximity Sensors

MEMO ES ES E-5

Flat size Proximity Sensors TL-W Space-Saving Flat Proximity Sensor Ordering Information DC -wire s Shape Sensing distance Output and operating status NC 5mm TL-W5MD* TL-W5MD* DC -wire s Shape Sensing distance.5mm Output specifications Output and operating status PNP- PNP-NC NPN- NPN-NC TL-WR5MB --- * TL-WR5MC --- mm 5mm DC -wire * TL-WMB TL-WMB TL-WMC TL-WMC * TL-W5MB TL-W5MB TL-W5MC TL-W5MC 0mm --- --- TL-W0ME* TL-W0ME* Shielded 5mm DC -wire TL-W5F TL-W5F TL-W5E TL-W5E *. s with different response frequency are available. These model numbers take the form TL-W5MD#5 (e.g., TL-W5MD5) E-5 Proximity Sensors

Rating/Performance DC -wire s Item TL-W5MD# Sensing distance 5 mm ±0% Setting distance Differential distance Standard sensing object Response frequency Rated supply voltage (operating voltage) 0 to mm 0% max. Ferrous metal(sensitivity decreases with non-ferrous metals) Iron, 8 x 8 x mm 0.5 khz to VDC (0 to 0 VDC), ripple (p-p): 0% max. Leakage current 0.8 ma max. Control Switching capacity to 00 ma output Residual voltage. V max. (under load current of 00 ma with cable length of m) Indicator lamp Operating status (with sensing object approaching) Protective circuits Ambient temperature Ambient humidity D models: (Red LED), Operation set indicator (Green LED) D models: (Red LED) D models: D models: NC Surge absorber, short-circuit protection Operating/Storage: -5 C to 70 C (with no icing or condensation) Operating/Storage: 5% to 95%RH (with no condensation) Temperature influence ±0% max. of sensing distance at C within a temperature range of -5 C and 70 C Voltage influence ±.5% max. of Sensing distance within a rated voltage range ±5%. Insulation resistance Dielectric strength Vibration resistance Shock resistance Protective structure 50 MW min. (at 500 VDC) between energized parts and case,000 VAC for min between energized parts and case 0 to 55 Hz,.5 mm double amplitude for hours each in X, Y, and Z directions Destruction: 500 m/s for times each in X, Y, and Z directions IEC6059 IP67 Connection method Pre-wired models (standard length: m) Weight (Packed state) Material Accessories Case Sensing surface Approx. 5 g Heat-resistant ABS resin Instruction manual * The response frequencies for DC switching are average values measured under the condition that the distance between each sensing object is twice as large as the size of the sensing object and the sensing distance set is half of the maximum sensing distance. TL-W TL-W E-5

DC -wire s Item TL-WR5M# TL-WM## TL-W5M## TL-W5E#/F# TL-W0ME# Sensing distance.5 mm ±0% mm ±0% 5 mm ±0% 0 mm ±0% Setting distance 0 to. mm 0 to. mm 0 to mm 0 to 6 mm Differential distance Standard sensing object 0% max. Ferrous metal (refer to Engineering Data for non-ferrous metal on page E-55) Iron, 8 x 8 x mm Iron, x x mm Iron, 8 x 8 x mm % to 5% of sensing distance Iron, 50 x 50 x mm Response frequency khz min. 600 Hz min. 500 Hz min. 00 Hz min. 0 Hz min. Power supply (Operating voltage range) to VDC (0 to 0 VDC) ripple (p-p): 0% max. 0 to 0 VDC with a ripple (p-p) of 0% max. Current consumption 5 ma max. at VDC (no-load) 0 ma max. 5mA max. at VDC (no-load) Control output Switching capacity Residual voltage NPN open collector 00 ma max. (0 VDC max.) V max. (under load current of 00 ma with cable length of m) NPN open collector VDC 50 ma max. (0 VDC max.) VDC 00 ma max. (0 VDC max.) V max. (under load current of 50 ma with cable length of m) 00 ma V max. (under load current of 00 ma with cable length of m) Indicator lamp Detection indicator (red LED) Operating status C models: E models, F models: (with sensing object C type: NC E models, F models: NC approaching) Protective circuits Reverse connection protection, surge absorber Ambient temperature Operating/Storage: -5 C to 70 ^C (with no icing or condensation) Ambient humidity Temperature influence Voltage influence Operating/Storage: 5% to 95%RH (with no condensation) ±0% max. of sensing distance at C within the temperature range of -5 C and 70 C ±.5% max. of sensing distance within a range of ±0% of rated power supply voltage ±.5% max. of sensing distance within a range of ±0% of rated power supply voltage to VDC (0 to 0 VDC) ripple (p-p): 0% max. 8 ma at VDC, 5 ma at VDC VDC 00mA max., VDC 00 ma max. V max. (under load current of 00 ma with cable length of m) ±.5% max. of sensing distance within a range of ±0% of rated power supply voltage Insulation resistance 50 MW min. (at 500 VDC) between energized parts and case Dielectric strength 000 VAC 50/60 Hz for min between energized part and case Vibration resistance 0 to 55 Hz,.5 mm double amplitude for hours each in X, Y, and Z directions Shock resistance Destruction: 500 m/s for times each in X, Y, and Z directions Destruction: 500 m/s for 0 times each in X, Y, and Z directions Protective structure IEC6059 IP67 Connection method Pre-wired models (standard length: m) Weight (Packed state) 0 g Approx. 5 g Approx. 70 g Approx. 80 g Material Accessories Case Heat-resistant ABS resin Diecast aluminum Sensing surface Heat-resistant ABS resin Mounting bracket, instruction manual Instruction manual Heat-resistant ABS resin E-5 Proximity Sensors

Characteristic data (typical) Sensing Distance vs. Sensing Object TL-WR5M# TL-WM# TL-W5MB#/C# Sensing distance X (mm) #d t=mm X Iron Stainless steel (SUS0) Brass Copper Aluminum Sensing distance X (mm) Iron Stainless steel (SUS0) Brass Aluminum Copper Sensing distance X (mm) 7 #d t=mm 6 X 5 Iron Stainless steel (SUS0) Brass Aluminum Copper 0 0 0 0 0 50 60 Side length of sensing object d (mm) 0 0 0 0 0 50 60 Side length of sensing object d (mm) 0 0 0 0 0 50 60 Side length of sensing object d (mm) TL-W5E#/-W5F#/-W5MD# TL-W0# Sensing distance X (mm) 6 5 #d t=mm X Iron Stainless steel (SUS0) Sensing distance X (mm) 0 8 6 #d TL-W t=mm X Iron Stainless steel (SUS0) Brass 0 8 Brass Aluminum 6 Aluminum 0 5 0 5 0 5 0 5 0 5 Side length of sensing object d (mm) 0 0 0 0 0 50 60 70 80 90 Side length of sensing object d (mm) TL-W E-55

Output Circuit Diagram DC -wire s Operating status Timing chart Output circuit Non-sensing zone Setting position Unstable Stable sensing Sensing zone zone Proximity Sensor NC DC -wire s Operating status TL-W5MD TL-W5MD (%) 00 80(TYP) 0 Rated sensing distance Setting indicator (green) (red) Control output Non-sensing zone Sensing object Sensing zone Proximity Sensor (%) 00 Rated sensing distance 0 (red) Control output Brown Timing chart Output circuit Main circuit Blue Note: The can be connected to either the +V and 0-V side. +V 0V NC TL-WR5M# TL-WM# TL-W5M# TL-WM# TL-W5MC Yes No Output transistor (load) (red) Yes No Output transistor (load) (red) Brown 00W Black* Main circuit Output Blue * Maximum load current: 00 ma +V 0V NC TL-WR5B TL-WMB TL-W5MB TL-WMB TL-W5MB Yes No Output transistor (load) (red) Yes No Output transistor (load) (red) Main circuit 00W Brown Black Blue +V 0V Yes No TL-W5E TL-W0ME Operate (between brown and black) Release Output voltage (between blue and black) (red) H L Yes No Main circuit 00W.7kW.W Brown * Black Output * Blue Tr +V 0V NC TL-W5E TL-W0ME Operate (between brown and black) Release Output voltage (between blue and black) H L * Maximum load current: 00 ma *. Current flows in this direction if the circuit incorporates the transistor. (red) E-56 Proximity Sensors

Operating status Timing chart Output circuit Yes No NC TL-W5F TL-W5F Operate (between brown and black) Release Output voltage (between blue and black) (red) H L Yes No Operate (between brown and black) Release Output voltage (between blue and black) (red) H L Main circuit.7kw 00W.W Brown Black * Output * Blue +V Tr *. Maximum load current: 00 ma *. Current flows in this direction if the circuit incorporates the transistor. 0V Precautions Correct Use Design Effects of Surrounding Metal Provide a minimum distance between the Sensor and the surrounding metal as shown in the table below. Front Surface Sensing Type (Not exceeding the sensor head height). Mutual Interference If two or more Sensors are mounted face to face or side by side, keep them separate at the following minimum distance. A B m Proximity Sensor Sensing surface l Sensing surface B Proximity Sensor l Mutual Interference (unit: mm) Effects of Surrounding Metal(Unit: mm) Length l m n TL-WR5M# 8 TL-WM# 0 TL-W5MD# 5 0 TL-W5M# TL-W0ME# 5 6 00 TL-W5E#/-W5F# 0 0 0 Length A B TL-WR5M# 75 (50) 0(60) TL-WMC# 90 (60) 00(00) TL-W5MD# TL-W5MC# 0(80) 60(0) TL-W0ME# 00(00) 00(00) TL-W5E#/-W5F# 50 5 Note: The above values in parentheses are applicable when using two sensors with different frequencies. Installation Use M flat-head screws to install TL-WR5M# and TL-WM#. Ensure that the resin cover should be tightened with a torque according to the following table. TL-W TL-WR5MC TL-WMC# TL-W5MD# TL-W0M# Tensile strength (torque) 0.98 Nm.5 Nm Adjustment Power Please note that the power injection AND connection generate an error pulse for approximately ms. TL-W E-57

Dimensions (Unit: mm) TL-WR5M# TL_8 TL-WM## TL_0 8 5 6±0. 5±0. (red) 0 7 7±0. 5±0. (red) Mounting Bracket (Attachment). 6 (See note) 7.8. 8 9 Sensing surface 5.5. dia. 90 6 dia. * Mounting hole for M pan-head screw Indicator Mounting Bracket (Attachment). 6 (See note) 7.8. Sensing surface 6 8 9 90 6 dia. Mounting hole for M pan-head screw. dia. Indicator (See note) R.6. R.6 8 R.6. R.6 0 5 7 Note: Mounting dimensions: 7±0. Indicator * Vinyl-insulated round cable with three conductors,.9 dia. (conductor cross-sectional area: 0.5 mm²; insulation diameter: 0.9 mm); standard length: m 5.5 9 Note: Mounting dimensions: 7±0. Indicator * Vinyl-insulated round cable with three conductors,.9 dia. (conductor cross-sectional area: 0. mm ; insulation diameter: 0.9 mm); standard length: m TL-W5M## TL_ TL-W5E# TL-W5F# TL_ Sensing surface 0.5 8 8.5.5 * (red) 0 0.5 8.5 8 Indicator * 5.5.5 ±0. 0 6.5 7.5 8 *. TL-W5MC: Vinyl-insulated round cable with three conductors, dia. (conductor cross-sectional area: 0. mm ; insulation diameter:. mm); standard length: m TL-W5MD# : Vinyl-insulated round cable with two conductors, dia. (conductor cross-sectional area: 0. mm²; insulation diameter:. mm); standard length: m *. C type: (red) D type: (red), Setting indicator (green) Mounting Holes 5±0. Two,.5 dia. 0.9 5-0. 0 6 dia. Sensing surface 50 (). dia. 7. dia. * Vinyl-insulated round cable with three conductors, dia. (conductor cross-sectional area: 0.mm ; insulation diameter:. mm); standard length: m * TL-W0ME# TL_9 Sensing surface 5 0 0±0. 8 5 (red) 7±0. 6 0 Two, 5.5 dia. mounting holes 8 5.5 Vinyl-insulated round cable with three conductors, 6 dia. (conductor cross-sectional area: 0.5 mm ; insulation diameter:.9 mm); standard length: m E-58 Proximity Sensors

MEMO TL-W TL-W E-59

Square Size Proximity Sensors TL-N A Variety of s Available for a Wide Range of Applications Ordering Information Sensors DC -wire Shape Sensing distance Operating status NC Unshielded #5 7mm TL-N7MD TL-N7MD #0 mm TL-NMD TL-NMD #0 0mm TL-N0MD TL-N0MD Note: s with different response frequency are available. These model numbers take the form TL-N#MD#5 (e.g., TL-N5ME5) DC -wire and AC -wire s Shape Sensing distance Output specifications Operating status NC DC -wire NPN * * TL-N5ME * TL-N5ME * #5 5mm AC -wire s TL-N5MY TL-N5MY Unshielded #0 0mm * DC -wire NPN TL-N0ME * TL-N0ME AC -wire s TL-N0MY TL-N0MY * * #0 0mm DC -wire NPN * TL-N0ME * TL-N0ME * AC -wire s TL-N0MY TL-N0MY Note: s with different response frequency are available. These model numbers take the form TL-##M##5 (e.g., TL-N5ME5) *. Each of these models has a cord with a standard length of 5 m. *. Each of these models with a robot cord is available and classified with the suffix "R" added to the model number (e.g., TL-N5ME-R). E-60 Proximity Sensors

Accessories (Order Separately) Mounting Brackets Item Mounting Brackets Mounting Bracket for Conduit Rating/Performance DC -wire Applicable models The Mounting Bracket is provided with this models. Y9E-C5 TL-N5ME#, TL-N7MD# TL-N5MY# Y9E-C0 TL-N0ME#, TL-NMD# TL-N0MY# Y9E-C0 TL-N0ME#, TL-N0MD# TL-N0MY# Order separately Y9E-N5C5 --- TL-N5ME#, TL-N5MY# Y9E-N0C5 --- TL-N0ME#, TL-N0MY# Item TL-N7MD# TL-NMD# TL-N0MD# Sensing distance 7 mm ±0% mm ±0% 0 mm ±0% Setting distance 0 to 5.6 mm 0 to 9.6 mm 0 to 6 mm Differential distance Standard sensing object 0% max. Ferrous metal(sensitivity decreases with non-ferrous metals) Iron, 0 x 0 x mm iron, 0 x 0 x mm iron, 50 x 50 x mm Response frequency 0.5 khz 0. khz Power supply (Operating voltage range) Leakage current Control output Switching capacity Residual voltage Indicator lamp Operating status (with sensing object approaching) to VDC (0 to 0 VDC), ripple (p-p): 0% max. 0.8 ma max. to 00 ma. V max. ( current 00 ma, Cable length: m) D models: (red LED), Operation set indicator (green LED) D models: (red LED) D models: D models: NC Protective circuits Surge absorber, short-circuit protection Ambient temperature Operating/Storage: -5 C to 70 C (with no icing or condensation) Ambient humidity Operating/Storage: 5% to 95%RH Temperature influence ±0% max. sensing distance at C within the temperature range of -5 C and 70 C Voltage influence ±.5% max. sensing distance within rated voltage range ±5%. Insulation resistance 50 MW min. (at 500 VDC) between energized parts and case Dielectric strength,000 VAC for min between energized parts and case Vibration resistance 0 to 55 Hz,.5 mm double amplitude for hours each in X, Y, and Z directions Shock resistance Destruction:,000 m/s for 0 times each in X, Y, and Z directions Protective structure IEC6059 IP67 Connection method Pre-wired models (standard length: m) Weight (Packed state) Approx. 5 g Approx. 70 g Approx. 0 g Case Material Sensing surface Heat-resistant ABS resin Accessories Mounting bracket, instruction manual * The response frequencies for DC switching are average values measured under the condition that the distance between each sensing object is twice as large as the size of the sensing object and the sensing distance set is half of the maximum sensing distance. TL-N TL-N E-6

DC -wire and AC -wire s Item TL-N5ME#, TL-N5MY# TL-N0ME#, TL-N0MY# TL-N0ME#, TL-N0MY# Sensing distance 5 mm ±0% 0 mm ±0% 0 mm ±0% Setting distance 0 to mm 0 to 8 mm 0 to 6 mm Differential distance Standard sensing object (mild steel) Response frequency* Supply voltage* (operating voltage range) Current consumption Leakage current Control output Switching capacity Residual voltage Indicator lamp Operating status (with sensing object approaching) Protective circuits Ambient temperature 5% max. of sensing distance Ferrous metal (Sensitivity decreases with non-ferrous metals) 0 x 0 x mm 0 x 0 x mm 50 x 50 x mm E models: 500Hz Y models: 0 Hz E models: to VDC (0 to 0 VDC), ripple (p-p): 0% max. Y models: 00 to 0 VAC (90 to 50 VAC) 50/60 Hz E models: 8 ma max. at VDC, 5 ma max. at VDC Y models: Refer to the Specifications E models: 00 ma max. at VDC, and 00 ma max. at VDC Y models: 0 to 00 ma E models: V max. with a current of 00 ma E models: Detection indicator (red LED) Y models: Operation Indicator (red LED) E, Y models: E, Y models: NC E models: Reverse connection protection and surge absorber Y models: Surge absorber Operating/Storage: -5 C to 70 C (with no icing or condensation) E models: 0Hz Y models: 0 Hz Ambient humidity Operating/Storage: 5% to 95%RH (with no condensation) Temperature influence ±0% max. sensing distance at C within a temperature range of -5 C and 70 C Voltage influence E models: ±.5% max. sensing distance within a range of ±0% of rated supply voltage Y models: ±% max. sensing distance within a range of ±0% of rated supply voltage Insulation resistance 50 MW min. (at 500 VDC) between energized parts and case E models:,000 VAC, 50/60 Hz for min between energized parts and case Dielectric strength Y models:,000 VAC, 50/60 Hz for min between energized parts and case Vibration resistance 0 to 55 Hz,.5 mm double amplitude for hours each in X, Y, and Z directions Shock resistance Destruction: 500 m/s for 0 times each in X, Y, and Z directions Protective structure IEC6059 IP67 Connection method Pre-wired models (standard length: m) Weight (Packed state) Approx. 5 g Approx. 70 g Approx. 0 g Case Material Sensing surface Heat-resistant ABS resin Accessories E models: Mounting bracket, instruction manual *. The response frequencies for DC switching are average values measured under the condition that the distance between each sensing object is twice as large as the size of the sensing object and the sensing distance set is half of the maximum sensing distance. *. The E models (DC switching type) can be used with a full-wave rectification power of VDC ±0%. E-6 Proximity Sensors

Characteristic data (typical) Sensing Distance vs. Sensing Object TL-N5# TL-N7MD# TL-NMD# Sensing distance X (mm) 6 5 #d t=mm X Aluminum Mild steel Stainless steel (SUS0) Brass Sensing distance X (mm) 0 8 6 #d t=mm X Mild steel Stainless steel (SUS0) Brass Aluminum Copper Sensing distance X (mm) 0 8 6 #d t=mm X Mild steel Stainless steel (SUS0) Brass Copper Aluminum 0 0 0 0 0 50 60 70 80 Side length of sensing object d (mm) TL-N0MD# TL-N0# TL-N0# Sensing distance X (mm) 0 6 8 #d t=mm X Mild steel Stainless steel (SUS0) Brass Copper Aluminum TL-N Sensing distance X (mm) 0 0 0 0 0 50 60 0 8 6 #d t=mm X Side length of sensing object d (mm) Mild steel Stainless steel (SUS0) Brass Aluminum Sensing distance X (mm) 0 0 0 0 0 50 60 0 8 6 0 8 6 #d t=mm X Side length of sensing object d (mm) Mild steel Stainless steel (SUS0) Brass Aluminum 0 0 0 0 0 50 60 Side length of sensing object d (mm) 0 0 0 0 0 50 60 70 80 Side length of sensing object d (mm) 0 0 0 0 0 50 60 70 80 Side length of sensing object d (mm) TL-N E-6

Output Circuit Diagram DC -wire s Operating status Timing chart Output circuit Sensing object Non-sensing area Unstable sensing area Setting point Stable sensing area Proximity Sensor TL-N7MD TL-NMD TL-N0MD (%) 00 80(typ) 0 Rated sensing distance Setting indicator (green) (red) Brown +V Control output Main circuit Non-sensing area Sensing object Sensing distance Proximity Sensor Blue 0 V Note: The load can be connected to either the +V or 0-V side. NC TL-N7MD TL-NMD TL-N0MD (%) 00 0 Rated sensing distance (red) Control output DC -wire s Operating status Timing chart Output circuit NC TL-N5ME TL-N0ME TL-N0ME TL-N5ME TL-N0ME TL-N0ME Sensing object (between brown and black) Output voltage (between black and blue) (red) Sensing object (between brown and black) Output voltage (between black and blue) (red) Yes No Operates Releases H L Yes No Operates Releases H L Main circuit 00W.7kW.W Brown Black * Output * Tr Blue *. 00 ma max.(load current) *. When a transistor is connected. +V 0V AC -wire s Operating status Timing chart Output circuit NC TL-N5MY TL-N0MY TL-N0MY TL-N5MY TL-N0MY TL-N0MY Yes No Operates Releases (red) Yes No Operates Releases (red) Main circuit Brown Blue E-6 Proximity Sensors

Precautions Warning Do not short-circuit the load, otherwise the TL-N may explode or burn. Do not supply power to TL-N without load, otherwise TL-N may be damaged (AC - wire s). Correct Use Design Effects of Surrounding Metal Provide a minimum distance between the Sensor and the surrounding metal as shown in the table below. Mounting Ensure that each screw is tightened with a torque within a range of 0.9 to.5 Nm. B A Effects of Surrounding Metal(Unit: mm) Length A (see note) B (see note) TL-N7MD# 0 5 TL-NMD# 50 0 TL-N0MD# 70 60 TL-N5ME#, TL-N5MY# 0 TL-N0ME#, TL-N0MY# 0 0 TL-N0ME#, TL-N0MY# 80 5 * The figures are applicable for one metal object, otherwise the figure must be multiplied by the number of metal objects. Mutual Interference If more than one Sensor is located face to face or in parallel, ensure to maintain enough space between adjacent Sensors to suppress mutual interference as provided in the following diagram. TL-N Side-by-side A Face-to-face B Mutual Interference (unit: mm) Length A B TL-N7MD# 00(50) 0(60) TL-NMD# 0(60) 00(00) TL-N0MD# 00(00) 00(00) TL-N5ME# 80(0) 80(0) TL-N5MY# 80(0) 90(0) TL-N0ME#, TL-N0MY# 0(60) 0(60) TL-N0ME#, TL-N0MY# 00(00) 0(60) Note: Figures in parentheses will apply if the Sensors in use are different from each other in response frequency. TL-N E-65

Dimensions (Unit: mm) Sensors TL-N7MD# TL_ TL-NMD# TL_09 TL-N0MD# TL_0 Mounting Holes Two,.5 dia. or M holes Mounting Holes Two,.5 dia. or M holes Mounting Holes Two, 5.5 dia. or M5 holes 8±0. ±0. 0±0. 5 Two,. dia. 7 Two, 5.5 dia. 5 8±0.5 9 Two,. dia. 0 0±0.5 6.8 Indicator * 0 ±0.5 8.8 Indicator * 5 Rubber bushing 8.5 * 0.5 8.5.5 *. 6-dia. two conductors vinyl-insulated round cable (crosssectional area of conductors: 0.5 mm ; insulation diameter:.9 mm) Standard length: m *. (red), Setting indicator (green) 0.5 7.7 0.5 5.8 5.5 Indicator *.5 Rubber bushing *. 6-dia. two conductors vinyl-insulated round cable (crosssectional area of conductors: 0.5 mm ; insulation diameter:.9 mm) Standard length: m *. (red), Setting indicator (green) * 0 0 5 Rubber bushing * *. 6-dia. two conductors vinyl-insulated round cable (cross-sectional area of conductors: 0.5 mm ; insulation diameter:.9 mm) Standard length: m *. (red), Setting indicator (green) TL-N5MY# TL_ Mounting Holes TL-N5ME# TL_ Mounting Holes TL-N0ME#, TL-N0MY# TL_09 Mounting Holes Two,.5 dia. or M holes Two,.5 dia. or M holes Two,.5 dia. or M holes 8±0. 8±0. ±0. 6. Two,. dia. 5 Two,. dia. 9 Two,. dia. 5 8±0.5 5 8±0.5 0 ±0.5 6.. (red) 6.8 (red) 7.7 5.8 Indicator * 5 8.5 0.5 50.5 Rubber bushing * 6-dia. two conductors vinyl-insulated round cable (cross-sectional area of conductors: 0.5 mm ; insulation diameter:.9 mm) Standard length: m * 5 8.5 0.5 8.5.5 Rubber bushing * 6-dia. two conductors vinyl-insulated round cable (cross-sectional area of conductors: 0.5 mm ; insulation diameter:.9 mm) Standard length: m * 0.5 0.5 5.5.5 Rubber bushing *. Y type: 6-dia. two conductors vinyl-insulated round cable (cross-sectional area of conductors: 0.5 mm ; insulation diameter:.9 mm) Standard length: m E type: 6-dia. three conductors vinyl-insulated round cable (crosssectional area of conductors: 0.5 mm ; insulation diameter:.9 mm) Standard length: m *. E type: operation indicator (red) Y type: operation indicator (red) * E-66 Proximity Sensors

TL-N0ME#, TL-N0MY# TL_0 7 Two, 5.5 dia. 0 0±0.5 Mounting Holes Two,.5 dia. or M holes 8.8 Indicator * ±0. 0 0 5 Rubber bushing * *. Y type: 6-dia. two conductors vinyl-insulated round cable (cross-sectional area of conductors: 0.5 mm ; insulation diameter:.9 mm) Standard length: m E type: 6-dia. three conductors vinyl-insulated round cable (crosssectional area of conductors: 0.5 mm ; insulation diameter:.9 mm) Standard length: m *. E type: operation indicator (red) Y type: operation indicator (red) Accessories (Order Separately) Mounting Brackets Y9E-C5 Y9E-C0 Y9E-C0.5 Two, M 0.5.5 0 8 Two, M 5.5 5 9.5 6 Two, M5 * ±0. 8±0. 5 * 6±0. ±0. 0 * ±0. 0±0. 0 6.5. 9.5 7..5 9. Applicable s: TL-N5ME# * TL-N5MY# TL-N7MD# * Applicable s: TL-N0ME# * TL-N0MY# TL-NMD# * Applicable s: TL-N0ME# * TL-N0MY# TL-N0MD# * *. The numeric values are Mounting Bracket Holes dimensions. *. Supplied with the product. TL-N Mounting Bracket for Conduit Y9E-N5C5 Y9E-N0C5 8. 5 8±0. ±0. Two,. dia..5. 0 ±0. ±0. Two,. dia..5 5.8. 5.5.. C5 conduit screw Applicable s: TL-N5ME# TL-N5MY# C5 conduit screw Applicable s: TL-N0ME# TL-N0MY# TL-N E-67

Liquid Level Sensor EK-L Installation on pipes. Sensing by means electrostatic capacity and is not influenced by the color of the pipe or liquid. Available in 8 to mm dia. and to 6 mm dia. models to enable sensing for a wide range of pipe diameters. Built-in amplifier for space-saving. Applications Liquid surface level detection Ordering Information Sensor type Applicable pipe diameters Shape Output form 8 to mm dia. EK-LMC Electrostatic capacity method NPN open-collector output to 6 mm dia. EK-L6MC E-68 Proximity Sensors

Rating/Performance Item EK-LMC EK-L6MC Applicable pipes Repetition precision Response difference Material Size (reference value only; varies with pipe size and solution) Supply voltage (operating voltage range) Current consumption Control output Switching capacity Residual voltage External diameter Wall thickness Detection position of liquid surface Indicator lamp Ambient temperature Ambient humidity Temperature influence Voltage influence Insulation resistance Dielectric strength Vibration resistance Shock resistance Protective structure Non-metal 8 to mm dia. to 6 mm dia. mm max..5 mm max. Liquid (see note) ±0. mm max. 0.6 to 5 mm 0. to mm to VDC, 0% max. ripple (0.8 to 0 VDC) ma max. 00 ma max. V max. (under load current of 00 ma with cable length of m) Notch position (For details, refer to Sensitivity Adjustment on next page.) (orange) Operating: 0 to 55 C; Storage: -0 to 65 C (with no icing or condensation) Operating/storage: 5% to 85% (with no condensation) In the range 0 to 55 C: Detection level at C mm (with distilled water or 0 % salt water concentration) (±6 mm with EK-LMC for distilled water in pipe of 8 mm diameter) At the rated power supply voltage ±0%: Detection level at rated supply voltage ±0.5 mm 50 MW min. (at 500 VDC) between energized parts and case 500 VAC 50/60 Hz for min between energized part and case 0 to 55 Hz,.5 mm double amplitude for hours each in X, Y, and Z directions 500 m/s for times each in X, Y, and Z directions IEC 6059 IP66 Connection method Pre-wired models (standard length: m) Weight (Packed state) Material Accessories Case, cover Cable clamp Approx. 70 g Heat-resistant ABS resin NBR binding bands, nonskid tubes, instruction manual Note: In the following cases, stable detection may not be possible and ensure to confirm correct operation in the actual installation before use.. If the dielectric constant or conductivity of the liquid is low.. If the capacity of the liquid is small, or if the pipe diameter is so small or the pipe walls are so thick that the amount by which the capacity changes relating to the liquid level is small.. In case of an increased gassing or a highly viscous liquid firm residue on the inside walls of the pipe, or a dirt clogging on the inner or outer walls of the pipe. EK-L EK-L E-69

Characteristic data (typical) Influence of Temperature on Detection Level EK-LMC EK-L6MC Change in detection level (mm) 6 0-0 0 - Pipe diameter: mm; Liquid: Distilled water Pipe diameter: mm; Liquid: Salt water ipe diameter: 8 mm; Liquid: Distilled water Pipe diameter: 8 mm; Liquid: Salt water 0 0 0 0 50 60 Temperature (C ) Change in detection level (mm) 6 0-0 - Pipe diameter: 6 mm; Liquid: Distilled water Pipe diameter: 6 mm; Liquid: Salt water Pipe diameter: mm; Liquid: Distilled water Pipe diameter: mm; Liquid: Salt water 0 0 0 0 0 50 60 Temperature (C ) - - -6 Output Circuit Diagram -6 Output form Timing chart Output circuit EK-LMC EK-L6MC Liquid surface (brown-black) (orange) Yes No Operates Releases Main circuit Brown Black * Blue +V 0V * 00 ma max. (load current) Operation Sensitivity adjustment. Install the Sensor with the setting position (notch) in line with the liquid level to be detected. Pipe Level of liquid surface Setting position (notch) Sensor. After Sensor installation adjust the detecting sensitivity using the (-step) sensitivity adjuster in the way shown below. Status of the indicator when the liquid level is aligned with the setting position Not lit Lit Sensitvity adjuster Adjustment procedure Turn the sensitivity adjuster clockwise using a screwdriver until the indicator lights. Turn the sensitivity adjuster counterclockwise using a screwdriver until the indicator turns. Then, turn the sensitivity adjuster clockwise until the indicator lights up again. Note:. During sensitivity adjustment do not put your hand on the Sensor and make sure that the cable is properly secured. Failure to observe these points may affect the detection level.. When using more than one Sensor (e.g., to detect for upper and lower limits), adjust the sensitivity of the Sensors in order starting from the bottom. Adjusting the sensitivity of a Sensor may affect the detection level of the Sensor above it.. Then set the upper limit.. First set the lower limit. E-70 Proximity Sensors

Precautions Correct Use Design Influence of Surrounding Objects Performance may be adversely affected by conductive objects (e.g., metals) in the vicinity of the Sensor. Ensure that any conductive objects are separated from the Sensor and set at a minimum distance as shown below. Pipe Sensor Installation Sensor installation Attach the Sensor securely to the pipe using the binding bands and the nonskid tubes provided ( tubes per band) in the way shown below. Install the Sensor in such manner that the pipe is in contact with the entire sensing face of the Sensor with the pipe and Sensor in parallel. Pipe Sensor Sensitivity adjuster A Object on Opposite Side B Level of liquid surface Setting position (notch) C Binding bands Slip-prevention tubes Side View Front View Object on One Side Objects on Both Sides Pipe Sensor Influence of Surrounding Objects (Units: mm) Shape Length A B C EK-LMC 5 5 5 EK-L6MC 0 0 Mutual Interference When installing or more Sensors in series, in parallel, or facing each other, be sure that they are separated by at least the distances shown below. Binding bands Slip-prevention tubes Top View Wiring Considerations Power Supply If separate power supplies are used for Sensor and load, be sure to turn on the Sensor power supply first. If a commercially available switching regulator is used, the Sensor may malfunction because of switching noise. Connect the frame ground and ground terminals to ground. EK-L Installed in Series Sides D Mutual Interference E Installed in Parallel Installed in Facing Each Other (Unit: mm) Shape Length D (see note) E F EK-LMC 5 0 0 EK-L6MC 0 * The detection level for the top Sensor may change when the detection level for the bottom Sensor is set. Be sure to set the detection level for the bottom Sensor first. F Operating Environment Ambient Conditions Although this product has waterproof specifications, do not use it in locations where it may have a direct contact with liquids (e.g., water or cutting oil). Such locations can interfere with the electrostatic capacity method used by the Sensor. Even if the Sensor is used within the specified temperature range, do not subject it to sudden changes in temperature because this will shorten the service life. Miscellaneous Drift may occur when the power supply is turned. If the dielectric constant of the liquid is low, the detection level of the liquid may be to mm higher than the set level for approximately 0 minutes after power is turned. EK-L E-7

Dimensions (Unit: mm) EK-LMC 0 5 R6.5 R7.5 Mounting holes.5 (orange) 5 6.5 Sensing surface.5 6.5.9-dia. three conductors vinyl-insulated round cable (cross-sectional area of conductors: 0. mm ; insulation diameter: 0.9 mm) Standard length: m 6 Sensitivity adjuster EK-L6MC 0 5 R R7.5 Mounting holes.5 (orange) 6.5 Sensitivity adjuster Sensing surface.5 6.5.9-dia. three conductors vinyl-insulated round cable (cross-sectional area of conductors:0. mm ; insulation diameter: 0.9 mm) Standard length: m 6 E-7 Proximity Sensors

MEMO EK-L EK-L E-7

Long-distance capacitive proximity sensor EK-C Capacitive Proximity Sensor with Adjustable Sensitivity Detects both metallic and non-metallic objects (glass, lumber, water, oil, plastic, etc.) without direct contact. DC models acquire CE marking Ordering Information Sensors Shape Unshielded dia. Sensing distance to 5mm Output specifications Operating status NC DC -wire NPN DC -wire PNP EK-C5ME E-KC5MF EK-C5ME EK-C5MF AC -wire s EK-C5MY EK-C5MY Accessories (Order Separately) Mounting Brackets Shape Quantity Remarks Y9E-A Supplied with the product. E-7 Proximity Sensors

Rating/Performance Item EK-C5M# EK-C5M# EK-C5MY EK-C5MY Sensing distance * 5 mm Sensing distance adjustable range to 5 mm Conductors and dielectrics Standard sensing object with grounded metal: 50 x 50 x t mm Differential distance 5% max. of sensing distance (when adjusted to 5 mm ±0% with standard object) Response frequency 70 Hz 0 Hz Power supply(operating voltage range) Current consumption Leakage current Control output Switching capacity Residual voltage to VDC, ripple (p-p): 0% max.,(0 to 0 VDC) 00 to 0 VAC (90 to 50 VAC) 50/60 Hz E models: 0 ma max. at VDC, 6 ma max. at VDC Y models: ma max. at 00 VAC (50/60 Hz) with output turned., ma max. at 00 VAC (50/60 Hz) with output turned. 00 ma max. 5 to 00 ma (resistive load) V max. (under load current of 00 ma with cable length of m) Indicator lamp Detection indicator (red LED) (red LED) Operating status (with sensing object approaching) E, Y models: E, Y models: NC Protective circuits Reverse connection protection, surge absorber Surge absorber Ambient temperature Operating/Storage: -5 C to 70 C (with no icing or condensation) Ambient humidity Operating/Storage: 5% to 95%RH (with no condensation) Temperature influence ±5%max. of sensing distance at within temperature range -0 C to 55 C Voltage influence Insulation resistance Dielectric strength ±% max. of sensing distance at a voltage between 85% and 5% of the rated power supply voltage 50 MW min. (at 500 VDC) between current carry parts and case 000 VAC 50/60 Hz for min between energized part and case Vibration resistance 0 to 55 Hz,.5 mm double amplitude for hours each in X, Y, and Z directions Shock resistance Destruction: 500 m/s for 0 times each in X, Y, and Z directions Protective structure IEC 6059 IP66 Connection method Pre-wired models (standard length: m) Weight (Packed state) Approx. 00 g Case Material Sensing surface Heat-resistant ABS resin Accessories Mounting bracket, instruction manual ±% max. sensing distance at a voltage ranging from 90% to 0% of a rated power voltage of 00 VAC and from 80% to 0% of a rated supply voltage of 00 VAC,500 VAC 50/60 Hz for min between energized part and case * The set distances are sensing distances applicable to standard sensing objects. Refer to Engineering Data for sensing distances applicable to other types of objects. EK-C EK-C E-75

Characteristic data (typical) Sensing Distance Change by Sensing Object (Typical) Sensing distance X (mm) 5 0 5 0 5 0 Standard sensing object (50 x 50 x t) 500 ml milk (pure water) Flour Sugar Salt Phenol resin (50 x 50 x 5) Neoprene rubber (50 x 50 x 5) Glass (00 x 50 x t) Lavan plate (60 x 0 x t5) Resin pellet (Duracon) Output Circuit Diagram DC -wire s Operating status Timing chart Output circuit NC EK-C5ME EK-C5ME Yes No Operates (between brown and black) Releases Output voltage H (between black and blue) L (red) Yes No Operates (between brown and black) Releases Output voltage H (between black and blue) L (red) Main circuit.kw Brown Brack * Output * Blue *. 00 ma max. (load current) *. When a transistor is connected Tr +V 0V NC EK-C5MF EK-C5MF Yes No Operates (between brown and black) Releases Output voltage H (between black and blue) L (red) Yes No Operates (between brown and black) Releases Output voltage H (between black and blue) L (red) Main circuit.7kw 00W.W Brown Black * Output * Blue +V Tr *. Maximum load current: 00 ma *. Current flows in this direction if the circuit incorporates the transistor. 0V E-76 Proximity Sensors

AC -wire s Operating status Timing chart Output circuit EK-C5MY Yes No Operates Releases (red) Brown Main circuit Blue NC EK-C5MY Yes No Operates Releases (red) EK-C EK-C E-77

Operation Sensitivity adjustment Remove the rear rubber cap of the EK-C and turn the potentiometer in the hole to adjust the sensitivity of the EK-C. Remove this rubber cap and adjust the potentiometer.. Turn the potentiometer counterclockwise until the EK-C turns off with the sensing object located within the sensing distance. Potentiometer Stop turning the potentiometer at the moment the EK-C turns off. The sensing distance increases by turning the potentiometer clockwise and decreases by turning the potentiometer counterclockwise. The potentiometer can make 5± valid turns and then make slip turns because the potentiometer does not have a stopper. The slip turns will not, however, damage the potentiometer.. Slowly turn the potentiometer clockwise until the EK-C turns on with no sensing object. Potentiometer Stop turning the potentiometer at the moment the EK-C turns off.. The EK-C will be in stable operation if there is a difference of.5 turns or more between the points the EK-C is turned on and off, otherwise the EK-C will not be in stable operation. Stable detection if the difference is.5 turns or more.. Set the potentiometer midway between the two points. The point the EK-C turns on. The point the EK-C turns on. The point the EK-C turns off. Midway The point the EK-C turns off. 5. If the distance of each sensing object varies, take step with the sensing object located at the farthest sensing distance to be applied. Precautions Correct Use Design Effects of Surrounding Metal During Proximity Sensor installation provide a distance of 80 mm min. from the surrounding metal objects to prevent the Sensor from being affected by metal objects other than the sensing object. If installing the Sensor with the L-shaped mounting bracket, provide a distance of 0 mm min. between the face of the sensing head and the mounting bracket. Be sure to ground 0 mm min. 80 mm min. Metal Sensing surface Surrounding conductive object 80 mm min. 80 mm min. 80 mm min. Surrounding conductive object Mutual Interference Space the two Sensors at a distance exceeding 00 mm to prevent mutual interference. Face-to-dace Mounting Parallel Mounting 00 mm min. 00 mm min. Effect of High-frequency Electro-magnetic Field The EK-C may malfunction if there is an ultrasonic washer, high-frequency generator, transceiver, or inverter nearby. E-78 Proximity Sensors

Sensing Object Sensing Object Material. The EK-C can detect almost any type of object. The sensing distance of the EK-C, however, will vary with the electrical characteristics of the object, such as the conductance and inductance of the object, and the water content and capacity of the object. The maximum sensing distance of EK-C will be available if the object is made of grounded metal. Indirect Detection. In the case of the detection of objects in metal containers, each metal container must have a nonmetallic window. Miscellaneous Organic Solvents EK-C has a case made of heat-resistant ABS resin. Be sure that the case is free from organic solvents or solutions containing organic solvents. Dimensions (Unit: mm) Sensors EK-C5M## EK_0 8 7 Cap cord Screw hole for sensitivity adjustment dia. 0 Cord clamp E type: 6-dia. three conductors vinyl-insulated round cable (cross-sectional area of conductors: 0.5 m u; insulation diameter:.9 mm) Standard length: m Y type: 6-dia. two conductors vinyl-insulated round cable (cross-sectional area of conductors: 0.5 m u; insulation diameter:.9 mm) Standard length: m * * E models: Detection indicator (red); Y models: Operation indicator (red) Accessories (Order Separately)* L-shaped Mounting Bracket Y9E-A 5. 5 R.6 6. Two elliptic holes for bracket mounting 5.5 5 Two, M sensor clamping screws 5 5. Sensor mounting holes Two, 5.5-dia. mounting holes * With Mounting Bracket Attached EK Proximity Sensor EK-C * Attached to the product. 0 5 57.6 * The holes are not drilled straight through. Drill through the holes before using them. 0 5 6 EK-C E-79

Flat type EK-F Low-profiled Capacitive Proximity Sensor providing Flexible Installation Ordering Information Shape Sensing distance Output specifications Operating status Flat type Unshielded 0 mm DC -wire NPN * EK-F0MC * NC models available (EK-F0MC) Rating/Performance Item EK-F0MC Sensing distance 0 mm ±0% Setting distance 0 to 7.5 mm Differential distance 5% max. sensing distance Conductors and dielectrics Standard sensing object with grounded metal: 50 x 50 x mm Response frequency 00 Hz Rated supply voltage (operating voltage) to VDC (0 to 0 VDC), ripple (p-p): 0% max. Current consumption 0 ma max. (VDC) Control Switching capacity NPN open collector 00 ma max. (under 0 VDC) output Residual voltage.5 V max. (under load current of 00 ma with cable length of m) Indicator lamp Detection indicator (red LED) Operating status (with sensing object approaching) Protective circuits Reverse connection protection, surge absorber Ambient temperature Operating/Storage: -0 C to 55 C (with no icing or condensation) Ambient humidity Operating/Storage: 5% to 95%RH Temperature influence ±5% max. of sensing distance at C within the temperature range of -0 C and 55 C Voltage influence ±.5% max. of sensing distance within a range of ±0% of rated supply voltage Insulation resistance 50 MW min. (at 500 VDC) between energized parts and case Dielectric strength 500 VAC 50/60 Hz for min between energized part and case Vibration resistance Malfunction: 0 to 55 Hz,.5 mm double amplitude for hours each in X, Y, and Z directions Shock resistance Destruction: 500 m/s for times each in X, Y, and Z directions Protective structure IEC 6059 IP66 Connection method Pre-wired models (standard length: m) Weight (Packed state) Approx. 5 g Material Case Sensing surface Heat-resistant ABS resin Accessories Instruction manual E-80 Proximity Sensors

Characteristic data (typical) Output Circuit Diagram Sensing Distance vs. Sensing Object Sensing distance X (mm) 0 9 8 7 6 5 Grounded metal (t=) Ungrounded metal (t=0) Operating Chart Yes No Output transistor (load) (red) Type Glass (t=0) Phenol resin (t=0) 0 0 0 0 0 50 60 70 80 Output circuit Main circuit 00W Brown Brack * Output +V size (mm) Blue 0V * 00 ma max. (load current) Precautions Correct Use Design Sensing Object Material EK-F can detect almost any type of object. The sensing distance of EK-F, however, will vary with the electrical characteristics of the object, such as the conductance and inductance of the object, as well as the water content and capacity of the object. The maximum sensing distance of EK-F will be available if the object is made of grounded metal. There are objects that cannot be detected indirectly. Therefore test EK-F in a trial operation with the objects before using EK-F in actual applications. Effects of Surrounding Metal Separate EK-F from ambient metals as shown below. 0mm 60mm 5mm Mutual Interference If installing more than one EK-F face to face or side by side, separate them as shown below. 0mm 50mm 50mm Close mounting possible Face-to-face mounting Effect of High-frequency Electro-magnetic Field EK-F may malfunction if an ultrasonic washer, high-frequency generator, transceiver, or inverter are nearby. For a typical measure, refer to the "Noise" with Common precautions of a photoelectric sensor in Rear B-page. Wiring Considerations The characteristics of EK-F will not change if the cord is extended. Keep in mind that voltage drops may occur due to the cord extension, thus, ensure that the total cord length does not exceed 00 m. EK-F Metal object Metal object Metal object EK-F E-8

Dimensions (Unit: mm) EK-F Two,.5 dia. Mounting Holes Two,.5 dia. 0 50 * 8 ±0. (red) 0 5 *.9-dia. three conductors vinyl-insulated round cable (cross-sectional area of conductors: 0. mm ; insulation diameter: 0.9 mm) Standard length: m 5 0. EK_0 E-8 Proximity Sensors

MEMO EK-F EK-F E-8

Inductive Proximity Sensor EKQ-X Proximity Sensor with Easy Sensing Distance Adjustment and Teflon * Coating Effective Oil and Chemical Resistance Oil and chemical-resistant Teflon case. Sensitivity adjuster ensures easy sensing distance adjustment according to the sensing object. Incorporates a cord connector with an indicator providing high visibility. * Teflon is a registered trademark of Dupont Company and Mitsui Dupont Chemical Company for their fluoride resin. Ordering Information Shape Sensing distance Output Unshielded M8 * NC models available (EKQ-X0ME) 6 to 0 mm DC -wire NPN Operating status * EKQ-X0ME Characteristic data (typical) Sensing Distance vs. Sensing Object Sensing distance X (mm) 5 #d t=mm X Grounded metal 0 Sensing Object Thickness and Material vs. Sensing Distance Sensing distance X (mm) 5 #50 t X Grounded metal 0 Ungrounded metal 5 Glass Phenol resin 0 0 0 0 0 0 50 60 70 80 Side length of sensing object d (mm) Ungrounded metal 5 Glass Phenol resin Wooden plate Acrylic resin 0 0 5 0 5 0 5 0 width t (mm) E-8 Proximity Sensors