Model Operation mode. TL-Q2MC1 DC 3-wire, NPN TL-Q5MC1 *2 TL-Q5MC2. DC 3-wire, NPN TL-G3D-3

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1 Rectangular Stanar Proximity TL-N/TL-Q/TL-G A Wealth of Moels for All Types of Applications Easy installation, high-spee pulse generator, high-spee rotation control, an more. Direct mounte to metal (-N Moels). A wealth of moels ieal for limit control, counting control, an other applications (-N Moels). Be sure to rea Safety Precautions on page 9. (excluing TL-G) Orering Information s DC -Wire Moels Appearance Sensing istance Moel Operation moe NO NC 7 7 mm TL-QMD TL-QMD Unshiele 7 mm TL-N7MD TL-N7MD 0 0 mm TL-NMD TL-NMD mm TL-N0MD TL-N0MD Note: Moels with a ifferent frequency are available to prevent mutual interference. The moel numbers are TL-N@MD@ an TL-QMD@ (e.g., TL-N7MD). DC -Wire an AC -Wire Moels Moel Appearance Sensing istance Output configuration NO Operation moe NC Unshiele 9 mm TL-QMC DC -wire, NPN 7 7 mm TL-QMC * TL-QMC DC -wire, NPN * TL-NME * TL-NME * mm AC -wire TL-NMY TL-NMY DC -wire, NPN * TL-N0ME * TL-N0ME * mm AC -wire TL-N0MY TL-N0MY DC -wire, NPN * TL-N0ME * TL-N0ME mm AC -wire TL-N0MY TL-N0MY Groove 7. mm DC -wire, NPN TL-GD- Note: Moels with a ifferent frequency are available to prevent mutual interference. Moels numbers for s with ifferent frequencies are TL-@@M@@ (example: TL-NME). *. Moels are also available with -m cables. A the cable length to the moel number (example: TL-NME M). *. Moels with robotics cables are also available. A -R to the en of the moel number (example: TL-NME-R).

2 TL-N/TL-Q/TL-G Accessories (Orer Separately) Mounting Brackets Type Mounting Brackets Mounting Brackets for Conuits Ratings an Specifications DC -Wire Moels Moel Applicable s Provie with these s Orer separately Y9E-C TL-NME@, TL-N7MD@ TL-NMY@ Y9E-C0 TL-N0ME@, TL-NMD@ TL-N0MY@ Y9E-C0 TL-N0ME@, TL-N0MD@ TL-N0MY@ Y9E-NC --- TL-NME@, TL-NMY@ Y9E-N0C --- TL-N0ME@, TL-N0MY@ Item Moel TL-QMD@ TL-N7MD@ TL-NMD@ TL-N0MD@ Sensing istance mm 0% 7 mm 0% mm 0% 0 mm 0% Set istance 0 to mm 0 to. mm 0 to 9. mm 0 to mm Differential travel 0% max. of sensing istance Detectable object Ferrous metal (The sensing istance ecreases with non-ferrous metal. Refer to Engineering Data on page.) Stanar sensing object Response frequency * Power supply voltage (operating voltage range) Leakage current Control output Inicators current Resiual voltage Operation moe (with sensing object approaching) Protection circuits Ambient temperature range Ambient humiity range Temperature influence Voltage influence Insulation resistance Dielectric strength Vibration resistance Shock resistance Degree of protection Iron, mm Iron, 0 0 mm Iron, 0 0 mm Iron, 0 0 mm 00 Hz 00 Hz to VDC (0 to 0 VDC), ripple (p-p): 0% max. 0. ma max. to 00 ma. V max. ( current: 00 ma, Cable length: m) D Moels: Operation inicator (re), Setting inicator (green) D Moels: Operation inicator (re) D Moels: NO D Moels: NC short-circuit protection, Surge suppressor Operating/Storage: to 70 C (with no icing or conensation) Operating/Storage: % to 9% (with no conensation) 0% max. of sensing istance at C in the temperature range of to 70 C.% max. of sensing istance at rate voltage in the rate voltage % range 0 M min. (at 00 VDC) between current-carrying parts an case,000 VAC for min between current-carrying parts an case Destruction: 0 to Hz,.-mm ouble amplitue for hours each in, Y, an Z irections Destruction: 00 m/s times each in, Y, an Z irections IEC 09 IP7, in-house stanars: oil-resistant Connection metho Pre-wire Moels (Stanar cable length: m) Destruction:,000 m/s 0 times each in, Y, an Z irections Weight (packe state) Approx. g Approx. g Approx. 70 g Approx. 0 g Materials Case Sensing surface Heat-resistant ABS Refer to the timing charts uner I/O Circuit Diagrams on page 7 for etails. Accessories Instruction manual Mounting Bracket, Instruction manual * The response frequency is an average value. Measurement conitions are as follows: stanar sensing object, a istance of twice the stanar sensing object, an a set istance of half the sensing istance.

3 TL-N/TL-Q/TL-G DC -Wire Moels Item Moel TL-QMC TL-GD- Sensing istance mm ±% mm ±0% 7.±0.mm Set istance 0 to. mm 0 to mm 0 mm Differential travel 0% max. of sensing istance Detectable object Ferrous metal (The sensing istance ecreases with non-ferrous metal. Refer to Engineering Data on page.) Stanar sensing object Iron, mm Iron, mm Iron, 0 0.mm Response time --- ms max. ms max. Response frequency * 00 Hz Power supply voltage (operating voltage range) to VDC (0 to 0 VDC), ripple (p-p): 0% max. to VDC, ripple (p-p): % max. Current consumption ma max. at VDC (no-loa) 0 ma max. at VDC ma max. at VDC (no-loa) Control output current Resiual voltage NPN open collector 00 ma max. at 0 VDC max. V max. (uner loa current of 00 ma with cable length of m) NPN open collector 0 ma max. at 0 VDC max. V max. (uner loa current of 0 ma with cable length of m) NPN transistor output 0 ma max. Inicators Detection inicator (re) --- Operation moe (with sensing object approaching) Protection circuits Ambient temperature range Ambient humiity range Temperature influence Voltage influence Insulation resistance Dielectric strength Vibration resistance Shock resistance Degree of protection Connection metho Weight (packe state) C Moels: NO NO C Moels: NC Refer to the timing charts uner I/O Circuit Diagrams on page 7 for etails. Reverse polarity protection, Surge suppressor Operating/Storage: 0 to 0 C (with no icing or conensation) Operating/Storage: % to 9% (with no conensation) ±0% max. of sensing istance at C in the temperature range of 0 to 0 C * The response frequency is an average value. Measurement conitions are as follows: stanar sensing object, a istance of twice the stanar sensing object, an a set istance of half the sensing istance. NO Surge suppressor Operating/Storage: to 70 C (with no icing or conensation) ±0% max. of sensing istance at C in the temperature range of to 70 C ±.% max. of sensing istance at rate voltage in rate voltage ±0% range 0 MΩ min. (at 00 VDC) between current-carrying parts an case,000 VAC for min between currentcarrying parts an case --- ±0% max. of sensing istance at C in the temperature range of 0 to C MΩ min. (at 00 VDC) between current-carrying parts an case 00 VAC, 0/0 Hz for min between current-carrying parts an case Destruction: 0 to Hz,.-mm ouble amplitue for hours each in, Y, an Z irections Destruction:,000 m/s 0 times each in, Y, an Z irections IEC 09 IP7, in-house stanars: oil-resistant Destruction: 00 m/s 0 times each in, Y, an Z irections IEC IP7 Pre-wire Moels (Stanar cable length: m) IEC IP Approx. 0 g Approx. 0 g Approx. 0 g Case Materials Sensing surface Heat-resistant ABS PPO Accessories Instruction manual --- Pre-wire Moels (Stanar cable length: m)

4 TL-N/TL-Q/TL-G Item Moel Sensing istance mm 0% 0 mm 0% 0 mm 0% Set istance 0 to mm 0 to mm 0 to mm Differential travel % max. of sensing istance Detectable object Ferrous metal (The sensing istance ecreases with non-ferrous metal. Refer to Engineering Data on pages an 7.) Stanar sensing object Response frequency * Power supply voltage * (operating voltage range) Current consumption Iron, 0 0 mm Iron, 0 0 mm Iron, 0 0 mm E Moels: 00 Hz Y Moels: 0 Hz E Moels: to VDC (0 to 0 VDC), ripple (p-p): 0% max. Y Moels: 00 to 0 VAC (90 to 0 VAC), 0/0 Hz E Moels: ma max. at VDC, ma max. at VDC Leakage current Y Moels: Refer to Engineering Data on page. Control output Inicators current Resiual voltage Operation moe (with sensing object approaching) Protection circuits E Moels: 00 ma max. at VDC, 00 ma max. at VDC Y Moels: 0 to 00 ma E Moels: V max. (loa current: 00 ma) Y Moels: Refer to Engineering Data on page. E Moels: Detection inicator (re) Y Moels: Operation inicator (re) E/Y Moels: NO E/Y Moels: NC Refer to the timing charts uner I/O Circuit Diagrams on page for etails. E Moels: Reverse polarity protection, Surge suppressor Y Moels: Surge suppressor E Moels: 0 Hz Y Moels: 0 Hz Ambient temperature range Operating/Storage: to 70 C (with no icing or conensation) Ambient humiity range Operating/Storage: % to 9% (with no conensation) Temperature influence 0% max. of sensing istance at C in the temperature range of to 70 C Voltage influence E Moels:.% max. of sensing istance at rate voltage in rate voltage 0% range Y Moels: % max. of sensing istance at rate voltage in rate voltage 0% range Insulation resistance 0 M min. (at 00 VDC) between current-carrying parts an case Dielectric strength E Moels:,000 VAC, 0/0 Hz for min between current-carrying parts an case Y Moels:,000 VAC, 0/0 Hz for min between current-carrying parts an case Vibration resistance Destruction: 0 to Hz,.-mm ouble amplitue for hours each in, Y, an Z irections Shock resistance Destruction: 00 m/s 0 times each in, Y, an Z irections Degree of protection IEC 09 IP7, in-house stanars: oil-resistant Connection metho Pre-wire Moels (Stanar cable length: m) Weight (packe state) Approx. g Approx. 70 g Approx. 0 g Materials Accessories Case Sensing surface Heat-resistant ABS E Moels: Mounting Bracket, Instruction manual Y Moels: Instruction manual *. The response frequency is an average value. Measurement conitions are as follows: stanar sensing object, a istance of twice the stanar sensing object, an a set istance of half the sensing istance. *. E Moels (DC switching moels): A full-wave rectification power supply of VDC 0% (average value) can be use.

5 Y Y Y Engineering Data (Typical) TL-N/TL-Q/TL-G Sensing Area TL-QMC TL-QM@@ TL-N@ME@ TL-N@MY@ Distance (mm) Distance (mm) Distance (mm) TL-N0 0 TL-N0 0 TL-N 0 0 Distance Y (mm) Sensing Hea TL-N@MD@ 0 0 Sensing Hea Distance Y (mm) Leakage Current TL-N@MY TL-N Sensing Hea Distance Y (mm) TL-N0 Sensing Hea TL-N0 Sensing Hea Distance (mm) 0 TL-N0MD@ TL-NMD@ Leakage current (ma).0. 0 TL-N7MD@ TL-N7MD@ Sensing Hea Distance Y (mm) TL-NMD@ Sensing Hea TL-N0MD@ Sensing Hea Y.0 0. Proximity (output ) Protective resistance ma AC V power 0/0 Hz Power supply voltage (V) Resiual Output Voltage TL-N@MD TL-N@MY at 00 VAC TL-N@MY at 00 VAC Resiual output voltage (V) voltage VL (V) Resiual output voltage V voltage VL (V) Resiual output voltage V 0 A 00 VAC 0 A 00 VAC ,000 current (ma) 0 Resiual loa voltage current (ma) 0 Resiual loa voltage current (ma)

6 TL-N/TL-Q/TL-G Thickness of Sensing Object vs. Sensing Object Size vs. Sensing Distance Sensing Distance TL-GD- TL-GD- v Distance (mm) 9 Operate Reset = mm R = 0 mm mm l Distance (mm) 7 t = mm Distance (mm) 0 9 mm l = mm t= 0. mm l Operate 7 7 Reset Thickness of sensing object: t (mm) Sie length of sensing object: (mm) Sie length of sensing object: (mm) Influence of Sensing Object Size an Material TL-QMC TL-QM@@ TL-N@ Distance (mm) Distance (mm) Iron Stainless steel (SUS0) Distance (mm) t = mm Iron Stainless steel (SUS0) Aluminum Iron Brass Copper Brass Aluminum Aluminum Stainless steel (SUS0) Brass Sie length of sensing object: (mm) Sie length of sensing object: (mm) Sie length of sensing object: (mm) TL-N7MD@ TL-NMD@ TL-N0MD@ Distance (mm) 0 t = mm Iron Stainless steel (SUS0) Brass Aluminum Copper Distance (mm) 0 t = mm Iron Stainless steel (SUS0) Brass Copper Aluminum Distance (mm) 0 t = mm Iron Stainless steel (SUS0) Brass Copper Aluminum Sie length of sensing object: (mm) Sie length of sensing object: (mm) Sie length of sensing object: (mm)

7 TL-N/TL-Q/TL-G Distance (mm) 0 t = mm Iron Distance (mm) 0 t = mm Iron Stainless steel (SUS0) 0 Stainless steel (SUS0) Brass Aluminum Brass Aluminum Sie length of sensing object: (mm) Sie length of sensing object: (mm) I/O Circuit Diagrams DC -Wire Moels Operation moe Moel Timing chart Output circuit NO TL-QMD TL-N7MD TL-NMD TL-N0MD Sensing object (%) Non-sensing area Unstable sensing area Rate sensing istance 00 Set position Stable sensing area 0 (TYP) 0 Proximity Setting inicator (green) Operation inicator (re) Control output Proximity main circuit V Non-sensing area Sensing object Sensing area Proximity 0 V Note: The loa can be connecte to either the V or 0 V sie. NC TL-QMD TL-N7MD TL-NMD TL-N0MD (%) Rate sensing istance 00 0 Operation inicator (re) Control output 7

8 TL-N/TL-Q/TL-G DC -Wire Moels Operation moe Moel Timing chart Output circuit NO TL-QMC TL-QMC Sensing object Output transistor (loa) Detection inicator (re) Present Not present Proximity main circuit 00 Ω Black * Output V Sensing object Present Not present 0 V NC TL-QMC Output transistor (loa) * current: 00 ma max., TL-QMC current: 0 ma max., TL-QMC Detection inicator (re) Sensing object Present Not present NO NC TL-NME TL-N0ME TL-N0ME TL-NME TL-N0ME TL-N0ME (between brown an black leas) Output voltage (between black an blue leas) Detection inicator (re) Sensing object (between brown an black leas) Output voltage (between black an blue leas) Operate Reset High Low Present Not present Operate Reset High Low Proximity main circuit 00 Ω.7 kω. Ω * Black *. current: 00 ma max. *. When a transistor is connecte. Output * Tr V 0 V Detection inicator (re) V Transistor output TL-GD- Sensing object Output transistor (loa) Present Not present Proximity main circuit Black * Output 0 V * current: 0 ma max. AC -Wire Moels Operation moe Moel Timing chart Output circuit NO TL-NMY TL-N0MY TL-N0MY Sensing object Operation inicator (re) Present Not present Operate Reset Proximity main circuit NC TL-NMY TL-N0MY TL-N0MY Sensing object Operation inicator (re) Present Not present Operate Reset

9 TL-N/TL-Q/TL-G Safety Precautions Refer to Warranty an Limitations of Liability. WARNING This prouct is not esigne or rate for ensuring safety of persons either irectly or inirectly. Do not use it for such purposes. Do not short-circuit the loa, otherwise the may be amage. Do not supply power to the with no loa, otherwise the may be amage. Applicable Moels: AC -Wire Moels Precautions for Correct Use Do not use this prouct uner ambient conitions that excee the ratings. Design Influence of Surrouning Metal When mounting the within a metal panel, ensure that the clearances given in the following table are maintaine. Failure to maintain these istances may cause eterioration in the performance of the. Rectangular Moels TL-N B A TL-Q Influence of Surrouning Metal (Unit: mm) Moel Distance A * B * TL-QM@@ 0 0 TL-N7MD@ 0 TL-NMD@ 0 0 TL-N0MD@ 70 0 TL-NME@, TL-NMY@ 0 TL-N0ME@, TL-N0MY@ 0 0 TL-N0ME@, TL-N0MY@ 0 * The figure is applicable for one metal object. (The figure must be multiplie by the number of metal objects.) B A Mutual Interference When installing s face-to-face or sie-by-sie, ensure that the minimum istances given in the following table are maintaine. Parallel A Mutual Interference Face-to-face (Unit: mm) Moel Distance A * B * TL-QMC@ 0 (7) 0 (0) TL-QMD@ 0 (0) 0 (0) TL-N7MD@ 00 (0) 0 (0) TL-NMD@ 0 (0) 00 (00) TL-N0MD@ 00 (00) 00 (00) TL-NME@ 0 (0) 0 (0) TL-NMY@ 0 (0) 90 (0) TL-N0ME@, TL-N0MY@ 0 (0) 0 (0) TL-N0ME@, TL-N0MY@ 00 (00) 0 (0) * Values in parentheses apply to s operating at ifferent frequencies. B B A A TL-QMC B mm Mounting plate* * The mounting plate must be a nonferrous metal. Influence of Surrouning Metal (Unit: mm) Moel Distance A B TL-QMC B TL-QMC Mutual Interference (Unit: mm) Moel Distance A B TL-QMC 0 () 90 () Groove Moel B Groove Moel A A B Influence of Surrouning Metal (Unit: mm) Moel Distance A B TL-GD- 7 Mutual Interference (Unit: mm) Moel Distance A B TL-GD- 9

10 TL-N/TL-Q/TL-G Designing the Sensing Object for TL-GD- Groove Moel For high-spee response to a toothe metal plate, the sensing objects must be at least the size of the stanar sensing object an there must be sufficient istance between sensing objects. The response frequency for a toothe wheel like the one shown at the right is khz min. The response frequency will be reuce if the wheel is smaller or the with of the teeth or the istance between the teeth is reuce. min. Material: Iron t = 0. mm 0 min. Ajustment Sensing Object Passing Position for the TL-GD- Groove Moel The gap between the sensing object an the bottom of the groove must be mm or less. mm max. Sensing object Mounting When tightening the mounting screws, o not excee the torque in the following table. Moel TL-QMC TL-QM@@ TL-N@M@@ TL-GD- Torque 0.9 N m 0.9 to. N m N m Dimensions (Unit: mm) s TL-QMC * Detection inicator (re) Sensing surface.±0..-ia. mounting hole 9. *.9-ia. vinyl-insulate roun cable with conuctors (Conuctor cross section: 0. mm, Insulator iameter: 0.9 mm), Stanar length: m TL-QM@@ 7 max.. * Mounting Hole Dimensions 7 0.±0. 0.±0. Two,. ia. Inicators * *. C Moels: -ia. vinyl-insulate roun cable with conuctors (Conuctor cross section: 0. mm, Insulator iameter:. mm), Stanar length: m D Moels: -ia. vinyl-insulate roun cable with conuctors (Conuctor cross section: 0. mm, Insulator iameter:. mm), Stanar length: m *. C Moels: Detection inicator (re) D Moels: Operation inicator (re), Setting inicator (green) Two,.-ia. holes 0

11 TL-N/TL-Q/TL-G TL-GD- 9.. * 0. 0 ia. ± Toothe washer Lock nut M 0.7 (slightly thin) Mounting Hole Dimensions -ia. Hole Two,.-ia. holes 9. * -ia. vinyl-insulate roun cable with conuctors (Conuctor cross section: 0. mm, Insulator iameter:. mm), Stanar length: m 7.±0. TL-N7MD@, TL-NME@ Two,. ia. ±0.. Inicator * Mounting Hole Dimensions Rubber bushing Two,.-ia. or M holes. * 0.. ±0.. *. D Moels: -ia. vinyl-insulate roun cable with conuctors (Conuctor cross section: 0. mm, Insulator iameter:.9 mm), Stanar length: m E Moels: -ia. vinyl-insulate roun cable with conuctors (Conuctor cross section: 0. mm, Insulator iameter:.9 mm), Stanar length: m *. D Moels: Operation inicator (re), Setting inicator (green) D Moels: Operation inicator (re) E Moels: Detection inicator (re) TL-NMY@. Two,. ia. TL-NMD@, TL-N0ME@, TL-N0MY@ 9 Two,. ia. Mounting Hole Dimensions Two,.-ia. or M holes ± * ±0. Operation inicator (re) * -ia. vinyl-insulate roun cable with conuctors (Conuctor cross section: 0. mm, Insulator iameter:.9 mm), Stanar length: m Rubber bushing Mounting Hole Dimensions Two,.-ia. or M holes ± Inicator * Rubber bushing. * ±0. *. D/Y Moels: -ia. vinyl-insulate roun cable with conuctors (Conuctor cross section: 0. mm, Insulator iameter:.9 mm), Stanar length: m E Moels: -ia. vinyl-insulate roun cable with conuctors (Conuctor cross section: 0. mm, Insulator iameter:.9 mm), Stanar length: m *. D Moels: Operation inicator (re) an Setting inicator (green) D Moels: Operation inicator (re) E Moels: Detection inicator (re) Y Moels: Operation inicator (re)

12 TL-N/TL-Q/TL-G 7 Two,. ia. Mounting Hole Dimensions Two,.-ia. or M holes 0 0±0. 0±0.. Inicator * 0 0 Rubber bushing * *. D/Y Moels: -ia. vinyl-insulate roun cable with conuctors (Conuctor cross section: 0. mm, Insulator iameter:.9 mm), Stanar length: m E Moels: -ia. vinyl-insulate roun cable with conuctors (Conuctor cross section: 0. mm, Insulator iameter:.9 mm), Stanar length: m *. D Moels: Operation inicator (re) an Setting inicator (green) D Moels: Operation inicator (re) E Moels: Detection inicator (re) Y Moels: Operation inicator (re) Accessories (Orer Separately) Mounting Bracket Y9E-C Y9E-C0 Y9E-C0. 0 Two, M.. 0 Two, M. 9. Two, M * ±0. ±0. * ±0. ±0. 0 * ±0. 0± Applicable Moels: TL-NME@ * Applicable Moels: TL-NMY@ Applicable Moels: TL-N7MD@ * 7.. Applicable Moels: TL-N0ME@ * Applicable Moels: TL-N0MY@ Applicable Moels: TL-NMD@ * 9. Applicable Moels: TL-N0ME@ * Applicable Moels: TL-N0MY@ Applicable Moels: TL-N0MD@ * *. These are the mounting imensions of the base of the Mounting Bracket. *. Provie with the prouct. Mounting Brackets for Wiring Conuit Use (Sol Separately) Y9E-NC Y9E-N0C. ±0. ±0. Two,. ia... 0 ±0. ±0. Two,. ia C conuit screw, JIS-B-00 Applicable Moels: TL-NME@ Applicable Moels: TL-NMY@ Applicable Moels: TL-N7MD@ C conuit screw, JIS-B-00 Applicable Moels: TL-N0ME@ Applicable Moels: TL-N0MY@ Applicable Moels: TL-NMD@

13 General Precautions Proximity s Technical Guie For precautions on iniviual proucts, refer to the Safety Precautions in iniviual prouct information. WARNING These proucts cannot be use in safety evices for presses or other safety evices use to protect human life. These proucts are esigne for use in applications for sensing workpieces an workers that o not affect safety. Precautions for Safe Use To ensure safety, always observe the following precautions. Wiring Consierations Item Power Supply Voltage DC -Wire NPN Output s Do not use a voltage that excees the operating voltage range. Applying a voltage that is higher than the operating voltage range, or using an AC power supply (00 VAC or higher) for a that requires a DC power supply Black may cause explosion or burning. Typical examples DC -Wire s short-circuiting Do not short-circuit the loa. Explosion or burning may result. The loa short-circuit protection function operates when the power supply is connecte with the correct polarity an the power is within the rate voltage range. DC -Wire NPN Output s Black ( short circuit) DC -Wire s Even with the loa short-circuit protection function, protection will not be provie when a loa short circuit occurs if the power supply polarity is not correct. ( short circuit) Incorrect Wiring DC -Wire NPN Output s Be sure that the power supply polarity an other wiring is correct. Incorrect wiring may cause explosion or burning. Black Black Connection without a If the power supply is connecte irectly without a loa, the internal elements may exploe or burn. Be sure to insert a loa when connecting the power supply. DC -Wire s Even with the loa short-circuit protection function, protection will not be provie if both the power supply polarity is incorrect an no loa is connecte. AC -Wire s Operating Environment Do not use the in an environment where there are explosive or combustible gases. C-

14 Proximity s Technical Guie Precautions for Correct Use The following conitions must be consiere to unerstan the conitions of the application an location as well as the relation to control equipment. Moel Selection Item Check the relation between the sensing object an the Proximity. Points of consieration Specific conitions of object Direction of object movement Peripheral metal Sensing istance Sensing object an operating conition of Proximity Sensing object Surrouning metals Proximity Sensing istance Material, size, shape, existence of plating, etc. Transit interval, spee, existence of vibration, etc. Material, istance to, orientation, etc. Fluctuation in transit point, allowable error, etc. Sensing (set) istance, shape of (rectangular, cylinrical, throughbeam, groove), influence of peripheral metal (Shiele s, Nonshiele s), response spee (response frequency), influence of temperature, influence of voltage, etc. Electrical conitions Environmental conitions Verify the electrical conitions of the control system to be use an the electrical performance of the Proximity. Proximity Switching element Output Power supply Power supply The environmental tolerance of the Proximity is better than that of other types of s. However, investigate carefully before using a Proximity uner harsh temperatures or in special atmospheres. Temperature an humiity Atmosphere Vibration an shock Highest or lowest values, existence of irect sunlight, etc. Water, oil, iron power, or other special chemicals Size, uration DC (voltage fluctuation, current capacity value) AC (voltage fluctuation, frequency, etc.) Nee for SD Controller Resistive loa - Non-contact control system Inuctive loa - Relay, solenoi, etc. Steay-state current, inrush current Operating, reset voltage (current) Lamp loa Steay-state current, inrush current Open/close frequency Temperature influence, high-temperature use, low temperature use, nee for shae, etc. Nee for water resistance or oil resistance, nee for explosionproof structure Nee for strength, mounting metho Selecting the power supply type DC DC SD Controller { AC Selecting the power supply type DC { DC SD Controller AC Control output Maximum current (voltage) Leakage current Resiual loa voltage Water Resistance Do not use the in water, rain, or outoors. Ambient Conitions To maintain reliability of operation, o not use the outsie the specifie temperature range or outoors. Even though the Proximity has a water-resistant structure, it must be covere to prevent irect contact with water or water-soluble cutting oil. Do not use the in atmospheres with chemical vapors, in particular, strong alkalis or acis (nitric aci, chromic aci, or hot concentrate sulfuric aci). Explosive Atmospheres Do not use the in atmospheres where there is a anger of explosion. Use an Explosionproof. When eciing the mounting metho, take into consieration not only restrictions ue to mechanical evices, but also ease of maintenance an inspection, an interference between s. Mounting conitions Influence of external electromagnetic fiels Other consierations Wiring metho, existence of inuctance surges Connection Wires Wire type, length, oil-resistant cable, shiele cable, robot cable, etc. Conuits, ucts, pre-wire, terminal wiring, ease of maintenance an inspection The influence within a DC magnetic fiel is 0 mt* max. Do not use the at a level higher than 0 mt. Suen changes in the DC magnetic fiel may cause malfunction. Do not use the for applications that involve turning a DC electromagnet an. Do not place a transceiver near the or its wiring. Doing so may cause malfunction. Cost feasibility: Price/elivery time Life: Power- time/frequency of use * mt (millitesla) is a unit for expressing magnetic flux ensity. One tesla is the equivalent of 0,000 gauss. Mounting proceure Installation location Existence of mounting brackets, irect mounting, secure with bolts or screws Ease of maintenance an inspection, mounting space C-

15 Proximity s Technical Guie Design Sensing Object Material The sensing istance varies greatly epening on the material of the sensing object. Stuy the engineering ata for the influence of sensing object material an size an select a istance with sufficient leeway. In general, if the Example: E-0D@ sensing object is a nonmagnetic metal (for t=mm example, aluminum), the sensing istance Steel 0 ecreases. (SPCC) Stainless steel Brass Aluminum Copper Sensing istance (mm) Size of Sensing Object In general, if the object is smaller than the stanar sensing object, the sensing istance ecreases. Design the setup for an object size that is the same or greater than the stanar sensing object size from the graphs showing the sensing object size an sensing istance. When the size of the stanar sensing object is the same or less than the size of the stanar sensing object, select a sensing istance with sufficient leeway Sie length (one sie) of sensing object: (mm) Sensing istance (mm) Sensing Stanar istance sensing becomes object short Sie length (one sie) of sensing object: (mm) Stability Thickness of Sensing Object The thickness of ferrous metals (iron, nickel, etc.) must be mm or greater. When the coating thickness is 0.0 mm or less, a sensing istance equivalent to a magnetic boy can be obtaine. When the coating is extremely thin an is not conuctive, such as a vacuum eposite film, etection is not possible. Influence of Plating If the sensing object is plate, the sensing istance will change (see the table below). Effect of Plating (Typical) (Reference values: Percent of non-plate sensing istance) Steel Aluminum Thickness of sensing object: t (mm) Thickness an base material of plating Steel Brass No plating Zn to μm 90 to 0 9 to 0 C to μm 00 to 0 9 to 0 Ag to μm 0 to 90 to 00 Cu 0 to 0 μm 70 to 9 9 to 0 Cu to μm - 9 to 0 Cu ( to 0 μm) Ni (0 to 0 μm) 70 to 9 - Cu ( to 0 μm) Ni (0 μm) Cr (0. μm) 7 to 9 - Mutual Interference Mutual interference refers to a state where a is affecte by magnetism (or static capacitance) from an ajacent an the output is unstable. One means of avoiing interference when mounting Proximity s close together is to alternate s with ifferent frequencies. The moel tables inicate whether ifferent frequencies are available. Please refer to the tables. When Proximity s with the same frequency are mounte together in a line or face-to-face, they must be separate by a minimum istance. For etails, refer to Mutual Interference in the Safety Precautions for iniviual s. Power Reset Time A is reay for etection within 00 ms after turning the power. If the loa an are connecte to separate power supplies, esign the system so that the power turns first. Sensing istance (mm) 0 Sensing object shape: Square =0mm Reset Operate C-

16 Proximity s Technical Guie Turning the Power An output pulse may be generate when the power is turne, so esign the system so that the loa or loa line power turns first. Influence of Surrouning Metal The existence of a metal object other than the sensing object near the sensing surface of the Proximity will affect etection performance, increase the apparent operating istance, egrae temperature characteristics, an cause reset failures. For etails, refer to the influence of surrouning metal table in Safety Precautions for iniviual s. The values in the table are for the nuts provie with the s. Changing the nut material will change the influence of the surrouning metal. Power Transformers Be sure to use an insulate transformer for a DC power supply. Do not use an auto-transformer (single-coil transformer). Precautions for AC -Wire/DC -Wire s Surge Protection Although the Proximity has a surge absorption circuit, if there is a evice (motor, weler, etc.) that causes large surges near the Proximity, insert a surge absorber near the source of the surges. Influence of Leakage Current Even when the Proximity is, a small amount of current runs through the circuit as leakage current. For this reason, a small current may remain in the loa (resiual voltage in the loa) an cause loa reset failures. Verify that this voltage is lower than the loa reset voltage (the leakage current is less than the loa reset current) before using the. Using an Electronic Device as the for an AC -Wire When using an electronic evice, such as a Timer, some types of evices use AC half-wave rectification. When a Proximity is connecte to a evice using AC half-wave rectification, only AC halfwave power will be supplie to the. This will cause the operation to be unstable. Also, o not use a Proximity to turn the power supply an for electronic evices that use DC halfwave rectification. In such a case, use a relay to turn the power supply an, an check the system for operating stability after connecting it. Examples of Timers that Use AC Half-wave Rectification Timers: HY, HYN, HRN, HCA-, RDP, an HCR (-A, -A, -AP, -F, -G) Countermeasures for Leakage Current (Examples) AC -Wire s Connect a bleeer resistor to bypass the leakage current flowing in the loa so that the current flowing through the loa is less than the loa reset current. Calculate the bleeer resistance an allowable power using the following equation. R Vs Vs (kω) P > 0 - I R (mw) P : Watts of bleeer resistance (the actual number of watts use shoul be several times this number) I : current (ma) It is recommen that leeway be inclue in the actual values use. For 00 VAC, use 0 kω or less an W ( W) or higher, an for 00 VAC, use 0 kω or less an 0 W (0 W) or higher. If the effects of heat generation are a problem, use the number of watts in parentheses ( ) or higher. DC -Wire s Connect a bleeer resistor to bypass the leakage current flowing in the loa, an esign the loa current so that (leakage current) (loa input impeance) < reset voltage. Calculate the bleeer resistance an allowable power using the following equation. R When using an AC -Wire, connect a bleeer resistor so that the Proximity current is at least 0 ma, an the resiual loa voltage when the Proximity is is less than the loa reset voltage. Vs ir - ir Bleeer resistor R (kω) P > Bleeer resistor R Vs (mw) P : Watts of bleeer resistance (the actual number of watts use shoul be several times this number) ir : Leakage current of Proximity (ma) i : reset current (ma) It is recommen that leeway be inclue in the actual values use. For VDC, use kω or less an 0 mw or higher, an for VDC, use 0 kω or less an 0. W or higher. R AC power supply voltage Vs Vs C-

17 Proximity s Technical Guie s with Large Inrush Current s, such as lamps or motors, that cause a large inrush current* will weaken or amage the switching element. In this situation, use a relay. *EK, TL-N@Y: A or higher Mounting Mounting the When mounting a, o not tap it with a hammer or otherwise subject it to excessive shock. This will weaken water resistance an may amage the. If the is being secure with bolts, observe the allowable tightening torque. Some moels require the use of toothe washers. For etails, refer to the mounting precautions in Precautions for Correct Use in iniviual prouct information. Mounting/Removing Using DIN Track (Example for ECY) <Mounting> ()Insert the front of the into the special Mounting Bracket (inclue) or DIN Track. ()Press the rear of the into the special Mounting Bracket or DIN Track. Rear <Removing> While pressing the Amplifier Unit in the irection of (), lift the fiber plug in the irection of () for easy removal without a screwriver. () DIN Track () Set Distance The sensing istance may vary ue to fluctuations in temperature an voltage. When mounting the, it is recommen that installation be base on the set istance. Front () () Mounting track (yellow) DIN Track (or Mounting Bracket) When mounting the sie of the using the special Mounting Bracket, first secure the Amplifier Unit to the special Mounting Bracket, an then mount the special Mounting Bracket with M screws an flat washers with a iameter of mm maximum. Flat washers ( ia. max.) C-

18 Proximity s Technical Guie Wiring Consierations AND/OR Connections for Proximity s Moel Type of connection Connection Description DC -Wire AND (series connection) - - Vs Keep the number of connecte s (N) within the range of the following equation. VS - N VR Operating loa voltage N : Number of s that can be connecte VR: Resiual output voltage of Proximity VS: Power voltage It is possible, however, that the inicators may not light correctly an error pulses (of approximately ms) may be generate because the rate power supply voltage an current are not supplie to iniviual Proximity s. Verify that this is not a problem before operation. OR (parallel connection) - Vs Keep the number of connecte s (N) within the range of the following equation. N i reset current N: Number of s that can be connecte i: Leakage current of Proximity Example: When an MY (-VDC) Relay is use as the loa, the maximum number of s that can be connecte is. VS <TL-NY, TL-MY, EK-@MY@, TL-T@Y> The above Proximity s cannot be use in a sereis connection. If neee, connect through relays. AND (series connection) VS <EE-@Y> For the above Proximity s, the voltage VL that can be applie to the loa when is VL = VS - (Output resiual voltage Number of s), for both 00 VAC an 00 VAC. The loa will not operate unless VL is higher than the loa operating voltage. This must be verifie before use. When using two or more s in series with an AND circuit, the limit is three s. (Be careful of the VS value in the iagram at left.) VL VS VS 00V AC -wire In general it is not possible to use two or more Proximity s in parallel with an OR circuit. (A) (B) A parallel connection can be use if A an B will not be operate simultaneously an there is no nee to hol the loa. The leakage current, however, will be n times the value for each an reset failures will frequently occur. ("n" is the number of Proximity s.) OR (parallel connection) (A) (B) AC power supply voltage Vs If A an B will be operate simultaneously an the loa is hel, a parallel connection is not possible. If A an B operate simultaneously an the loa is hel, the voltages of both A an B will fall to about 0 V when A turns, an the loa current will flow through A causing ranom operation. When the sensing object approaches B, the voltage of both terminals of B is too low at 0 V an the switching element of B will not operate. When A turns again, the voltages of both A an B rise to the power supply voltage an B is finally able to turn. During this perio, there are times when A an B both turn (approximately 0 ms) an the loas are momentarily restore. In cases where the loa is to be hel in this way, use a relay as shown in the iagram at left. Note: When AND/OR connections are use with Proximity s, the effects of erroneous pulses or leakage current may prevent use. Verify that there are no problems before use. C-

19 Proximity s Technical Guie Moel Type of connection Connection Description DC -wire AND (series connection) (A) (B) OUT - OUT - i il i Vs Keep the number of connecte s (N) within the range of the following equation. il (N - ) i Upper limit of Proximity control output VS - N VR Operating loa voltage N : Number of s that can be connecte VR: Resiual output voltage of VS: Power supply voltage i : Current consumption of il: current Example: A maximum of two s can be use when an MY (-VDC) Relay is use for the loa. Note: When an AND circuit is connecte, the operation of Proximity B causes power to be supplie to Proximity A, an thus erroneous pulses (approximately ms) may be generate in A when the power is turne. For this reason, take care when the loa has a high response spee because malfunction may result. OR (parallel connection) OUT - OUT Vs For s with a current output, a minimum of three OR connections is possible. Whether or not four or more connections is possible epens on the moel. - Note: When AND/OR connections are use with Proximity s, the effects of erroneous pulses or leakage current may prevent use. Verify that there are no problems before use. Extening Cable Length The cable of a Built-in Amplifier can be extene to a maximum length of 00 m with each of the stanar cables (excluing some moels). For Separate Amplifier s (EC-EDA, EC, EJ, ECY), refer to the specific precautions for iniviual proucts. Bening the Cable If you nee to ben the cable, we recommen a ben raius that is at least times the outer iameter of the cable (with the exception of coaxial an shiele cables). Cable Tensile Strength In general, o not subject the cable to a tension greater than that inicate in the following table. Cable iameter Less than mm Tensile strength 0 N max. mm min. 0 N max. Note: Do not subject a shiele cable or coaxial cable to tension. Separating High-voltage Lines Using Metal Conuits If a power line is to be locate near the Proximity cable, use a separate metal conuit to prevent malfunction or amage. (Same for DC moels.) Example of Connection with SD Controller DC -Wire s Using the SD Controller Operation can be reverse with the signal input switch on the SD. Connecting to a Relay Note: DC -Wire s have a resiual voltage of V. Check the operating voltage of the relay before use. The resiual voltage of the EE-D-MJ-T is V. DC -Wire s VDC 0 V OUT SD Operation can be reverse with the signal input switch on the SD. 0 V Black OUT V SD C-7

20 Proximity s Technical Guie Operating Environment Water Resistance Do not use the in water, rain, or outoors. Ambient Conitions Do not use the in the following environments. Doing so may cause malfunction or failure of the.. To maintain operational reliability an service life, use the only within the specifie temperature range an o not use it outoors.. The has a water resistant structure, however, attaching a cover to prevent irect contact with water will help improve reliability an prolong prouct life.. Avoi using the where there are chemical vapors, especially strong alkalis or acis (nitric aci, chromic aci, or hot concentrate sulfuric aci). Maintenance an inspection Perioic Inspection To ensure long-term stable operation of the Proximity, inspect for the following on a regular basis. Conuct these inspections also for control evices.. Shifting, loosening, or eformation of the sensing object an Proximity mounting. Loosening, ba contact, or wire breakage in the wiring an connections. Aherence or accumulation of metal power. Abnormal operating temperature or ambient conitions. Abnormal inicator flashing (on setting inicator types) Disassembly an Repair Do not uner any circumstances attempt to isassemble or repair the prouct. Quick Failure Check You can conveniently check for failures by connecting the E9-VA Hany Checker to check the operation of the. C-

21 Rea an Unerstan This Catalog Please rea an unerstan this catalog before purchasing the proucts. Please consult your OMR representative if you have any questions or comments. Warranty an Limitations of Liability WARRANTY OMR's exclusive warranty is that the proucts are free from efects in materials an workmanship for a perio of one year (or other perio if specifi e) from ate of sale by OMR. OMR MAKES NO WARRANTY OR REPRESENTATI, EPRESS OR IMPLIED, REGARDING N-INFRINGEMENT, MERCHANTABILITY, OR FITNESS FOR PARTICULAR PURPOSE OF THE PRODUCTS. ANY BUYER OR USER ACKNOWLEDGES THAT THE BUYER OR USER ALE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE. OMR DISCLAIMS ALL OTHER WARRANTIES, EPRESS OR IMPLIED. LIMITATIS OF LIABILITY OMR SHALL NOT BE RESPSIBLE FOR SPECIAL, INDIRECT, OR CSEQUENTIAL DAMAGES, LOSS OF PROFITS, OR COMMERCIAL LOSS IN ANY WAY CNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED CTRACT, WARRANTY, NEGLIGENCE, OR STRICT LIABILITY. In no event shall responsibility of OMR for any act excee the iniviual price of the prouct on which liability is asserte. IN NO EVENT SHALL OMR BE RESPSIBLE FOR WARRANTY, REPAIR, OR OTHER CLAIMS REGARDING THE PRODUCTS UNLESS OMR'S ANALYSIS CFIRMS THAT THE PRODUCTS WERE PROPERLY HANDLED, STORED, INSTALLED, AND MAINTAINED AND NOT SUBJECT TO CTAMINATI, ABUSE, MISUSE, OR INAPPROPRIATE MODIFICATI OR REPAIR. Application Consierations SUITABILITY FOR USE OMR shall not be responsible for conformity with any stanars, coes, or regulations that apply to the combination of proucts in the customer's application or use of the prouct. At the customer's request, OMR will provie applicable thir party certifi cation ocuments ientifying ratings an limitations of use that apply to the proucts. This information by itself is not suffi cient for a complete etermination of the suitability of the proucts in combination with the en prouct, machine, system, or other application or use. The following are some examples of applications for which particular attention must be given. This is not intene to be an exhaustive list of all possible uses of the proucts, nor is it intene to imply that the uses liste may be suitable for the proucts: Outoor use, uses involving potential chemical contamination or electrical interference, or conitions or uses not escribe in this catalog. Nuclear energy control systems, combustion systems, railroa systems, aviation systems, meical equipment, amusement machines, vehicles, safety equipment, an installations subject to separate inustry or government regulations. Systems, machines, an equipment that coul present a risk to life or property. Please know an observe all prohibitions of use applicable to the proucts. NEVER USE THE PRODUCTS FOR AN APPLICATI INVOLVING SERIOUS RISK TO LIFE OR PROPERTY WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS, AND THAT THE OMR PRODUCT IS PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM. Disclaimers CHANGE IN SPECIFICATIS Prouct specifi cations an accessories may be change at any time base on improvements an other reasons. It is our practice to change moel numbers when publishe ratings or features are change, or when signifi cant construction changes are mae. However, some specifi cations of the prouct may be change without any notice. When in oubt, special moel numbers may be assigne to fi x or establish key specifi cations for your application on your request. Please consult with your OMR representative at any time to confi rm actual specifi cations of purchase prouct. DIMENSIS AND WEIGHTS Dimensions an weights are nominal an are not to be use for manufacturing purposes, even when tolerances are shown. ERRORS AND OMISSIS The information in this catalog has been carefully checke an is believe to be accurate; however, no responsibility is assume for clerical, typographical, or proofreaing errors, or omissions. PERFORMANCE DATA Performance ata given in this catalog is provie as a guie for the user in etermining suitability an oes not constitute a warranty. It may represent the result of OMR s test conitions, an the users must correlate it to actual application requirements. Actual performance is subject to the OMR Warranty an Limitations of Liability. PROGRAMMABLE PRODUCTS OMR shall not be responsible for the user's programming of a programmable prouct, or any consequence thereof. COPYRIGHT AND COPY PERMISSI This catalog shall not be copie for sales or promotions without permission. This catalog is protecte by copyright an is intene solely for use in conjunction with the prouct. Please notify us before copying or reproucing this catalog in any manner, for any other purpose. If copying or transmitting this catalog to another, please copy or transmit it in its entirety. OMR Corporation Inustrial Automation Company In the interest of prouct improvement, specifications are subject to change without notice. (c)copyright OMR Corporation 007 All Rights Reserve.