Standard Flat Inductive Proximity Sensors Front and side facing surface IP67 DC -wire and DC -wire models Ordering Information DC -wire Models Shape distance Model Output and operating status mm MD1 *1 MD *1 *1. Models with different response frequency are available. These model numbers take the form MD# (e.g., TL- WMD1) DC -wire Models Shape distance Output specifications Model Output and operating status PNP- PNP- NPN- NPN- 1.mm 1RMB1 --- 1RMC1 *1 --- mm mm DC -wire MB1 MB MC1 *1 MC MB1 MB MC1 *1 MC 0mm --- --- 0ME1 *1 0ME *1 Shielded mm DC -wire F1 F E1 E *1. Models with different response frequency are available. These model numbers take the form MD# (e.g., MD1) D-
Rating/Performance DC -wire Models Item Model MD# distance mm ±% Setting distance Differential distance Standard sensing object Response frequency Rated supply voltage (operating voltage) 0 to mm % max. Ferrous metal(sensitivity decreases with non-ferrous metals), 1 x 1 x 1 mm 0. khz 1 to VDC ( to 0 VDC), ripple (p-p): % max. Leakage current 0. ma max. Control Switching capacity to 0 ma output Residual voltage. V max. (under load current of 0 ma with cable length of m) Indicator lamp Operating status (with sensing object approaching) Protective s Ambient temperature Ambient humidity D1 models: (Red LED), Operation set indicator (Green LED) D models: (Red LED) D1 models: D models: Surge absorber, short- protection Operating/Storage: - C to 70 C (with no icing or condensation) Operating/Storage: % to 9%RH (with no condensation) Temperature influence ±% max. of sensing distance at C within a temperature range of - C and 70 C Voltage influence ±.% max. of distance within a rated voltage range ±1%. Insulation resistance 0 M min. (at 00 VDC) between energized parts and case Dielectric strength Vibration resistance Shock resistance Protective structure 1,000 VAC for 1 min between energized parts and case to Hz, 1. mm double amplitude for hours each in X, Y, and Z directions Destruction: 00 m/s for times each in X, Y, and Z directions IEC609 IP67 Connection method Pre-wired models (standard length: m) Weight (Packed state) Material Accessories Case surface Approx. 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. D- Inductive Sensors
DC -wire Models Model Item 1RM#1 M## M## E#/F# 0ME# distance 1. mm ±% mm ±% mm ±% 0 mm ±% Setting distance 0 to 1. mm 0 to. mm 0 to mm 0 to 16 mm Differential distance % max. 1% to 1% of sensing distance Ferrous metal (refer to Engineering Data for non-ferrous metal on page E-) Standard sensing object, x x 1 mm, 1 x 1 x 1 mm, 1 x 1 x 1 mm, 0 x 0 x 1 mm Response frequency 1 khz min. 600 Hz min. 00 Hz min. 00 Hz min. 0 Hz min. Power supply (Operating voltage range) 1 to VDC ( to 0 VDC) ripple (p-p): % max. to 0 VDC with a ripple (p-p) of 0% max. Current consumption 1 ma max. at VDC (no-load) ma max. 1mA max. at VDC (no-load) Control output Switching capacity Residual voltage Indicator lamp Operating status (with sensing object approaching) Protective s NPN open collector 0 ma max. (0 VDC max.) 1 V max. (under load current of 0 ma with cable length of m) Detection indicator (red LED) C1 models: C type: NPN open collector 1 VDC 0 ma max. (0 VDC max.) VDC 0 ma max. (0 VDC max.) 1 V max. (under load current of 0 ma with cable length of m) Reverse connection protection, surge absorber 00 ma V max. (under load current of 00 ma with cable length of m) E1 models, F1 models: E models, F models: Ambient temperature Operating/Storage: - C to 70 ^C (with no icing or condensation) Ambient humidity Operating/Storage: % to 9%RH (with no condensation) Temperature influence ±% max. of sensing distance at C within the temperature range of - C and 70 C Voltage influence ±.% max. of sensing distance within a range of ±% of rated power supply voltage ±.% max. of sensing distance within a range of ±0% of rated power supply voltage 1 to VDC ( to 0 VDC) ripple (p-p): % max. ma at 1 VDC, 1 ma at VDC 1 VDC 0mA max., VDC 00 ma max. 1 V max. (under load current of 00 ma with cable length of m) ±.% max. of sensing distance within a range of ±% of rated power supply voltage Insulation resistance 0 M min. (at 00 VDC) between energized parts and case Dielectric strength 00 VAC 0/60 Hz for 1 min between energized part and case Vibration resistance to Hz, 1. mm double amplitude for hours each in X, Y, and Z directions Shock resistance Destruction: 00 m/s for times each in X, Y, and Z directions Destruction: 00 m/s for times each in X, Y, and Z directions Protective structure IEC609 IP67 Connection method Pre-wired models (standard length: m) Weight (Packed state) 0 g Approx. g Approx. 70 g Approx. 10 g Material Case Heat-resistant ABS resin Diecast aluminum Heat-resistant ABS resin surface Heat-resistant ABS resin Accessories Mounting bracket, instruction manual Instruction manual D-
Characteristic data (typical) Distance vs. Object 1RM# M# MB#/C# distance X (mm) #d t=1mm X Stainless steel (SUS0) 1 distance X (mm) Stainless steel (SUS0) Copper 1 distance X (mm) 7 #d t=1mm 6 X Stainless steel (SUS0) Copper Copper 1 0 0 0 0 0 60 0 0 0 0 0 60 0 0 0 0 0 60 E#/-WF#/-WMD# 0# distance X (mm) 6 #d t=1mm X Stainless steel (SUS0) distance X (mm) 0 1 16 1 #d t=1mm X 1 Stainless steel (SUS0) 1 6 0 1 0 0 0 0 0 0 0 0 60 70 0 90 D-6 Inductive Sensors
Output Circuit Diagram DC -wire Models Operating status Model Timing chart Output n-sensing zone Setting position Unstable Stable sensing zone zone Proximity Sensor DC -wire Models Operating status MD1 MD (%) 0 0(TYP) 0 Rated sensing distance Setting indicator (green) Control output n-sensing zone object zone Proximity Sensor (%) 0 Rated sensing distance 0 Control output Model Timing chart Output te: The can be connected to either the and 0-V side. 1RM#1 M#1 M#1 M# MC Output transistor (load) Output transistor (load) 0W Black* Output * Maximum load current: 0 ma 1RB1 MB1 MB1 MB MB Output transistor (load) Output transistor (load) 0W Black E1 0ME1 Operate (between brown and black) Release Output voltage (between blue and black) H L 0W.7kW.W *1 Black Output * Tr E 0ME Operate (between brown and black) Release Output voltage (between blue and black) H L * Maximum load current: 0 ma *. Current flows in this direction if the incorporates the transistor. D-7
Operating status Model Timing chart Output F1 F Operate (between brown and black) Release Output voltage (between blue and black) H L Operate (between brown and black) Release Output voltage (between blue and black) H L.7kW 0W.W Black * Output *1 Tr * 1. Maximum load current: 00 ma *. Current flows in this direction if the incorporates the transistor. 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 Type (t 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 surface l surface B Proximity Sensor l Mutual Interference (unit: mm) Effects of Surrounding Metal(Unit: mm) Model Length l m n 1RM# M# 1 0 MD# 0 M# 0ME# 16 0 E#/-WF# 0 0 0 Model Length A B 1RM# 7 (0) (60) MC# 90 (60) 00(0) MD# MC# (0) 60(0) 0ME# 00(0) 00(0) E#/-WF# 0 te: The above values in parentheses are applicable when using two sensors with different frequencies. Installation Use M flat-head screws to install 1RM# and M#. Ensure that the resin cover should be tightened with a torque according to the following table. Model 1RMC1 MC# MD# 0M# Tensile strength (torque) 0.9 Nm 1. Nm Adjustment Power Please note that the power injection AND connection generate an error pulse for approximately 1 ms. D- Inductive Sensors
Dimensions (Unit: mm) 1RM#1 M## 16±0. ±0. 7 17±0. ±0. Mounting Bracket (Attachment). 16 (See note) 7. 1. 9 surface.. dia. 90 6 dia. * Mounting hole for M pan-head screw Indicator Mounting Bracket (Attachment). 16 (See note) 7. 1. surface 6 9 90 6 dia. Mounting hole for M pan-head screw. dia. Indicator (See note) R1.6. R1.6 R1.6. R1.6 7 te: Mounting dimensions: 17±0. Indicator * Vinyl-insulated round cable with three conductors,.9 dia. (conductor cross-sectional area: 0.1 mm²; insulation diameter: 0.9 mm); standard length: m. 9 te: Mounting dimensions: 17±0. Indicator * Vinyl-insulated round cable with three conductors,.9 dia. (conductor cross-sectional area: 0.1 mm ; insulation diameter: 0.9 mm); standard length: m M## E# F# surface 0. 1.. *1.. 1. 1±0.1 0.9 1-0. Indicator * 1. Mounting Holes 16 dia. surface 0 () * 6. 7. 1±0.. dia. * 1. MC1: Vinyl-insulated round cable with three conductors, dia. (conductor cross-sectional area: 0. mm ; insulation diameter: 1. mm); standard length: m MD# : Vinyl-insulated round cable with two conductors, dia. (conductor cross-sectional area: 0. mm²; insulation diameter: 1. mm); standard length: m *. C type: D type:, Setting indicator (green) Two,. dia. 7. dia. * Vinyl-insulated round cable with three conductors, dia. (conductor cross-sectional area: 0.mm ; insulation diameter: 1. mm); standard length: m 0ME# surface 0 0±0.1 1 7±0.1 6 0 Two,. dia. mounting holes 1 1 1. Vinyl-insulated round cable with three conductors, 6 dia. (conductor cross-sectional area: 0. mm ; insulation diameter: 1.9 mm); standard length: m D-9
ALL DIMENSIS SHOWN ARE IN MILLIMETERS. To convert millimeters into inches, multiply by 0.097. To convert grams into ounces, multiply by 0.07. Cat.. E1-E-0-X In the interest of product improvement, specifications are subject to change without notice. D-60 Inductive Sensors