Sensing Supply voltage Output 90 to 0 VAC, 0/60 z to 30 VDC 00 ma, 8, 1 mm 00 ma NPN or PNP Capacitive Proximity Sensor Threaded, Cylindrical Sensor Detects Metallic and Non-metallic Objects Permits non-contact detection of metallic and non-metallic objects such as glass, wood, water, oil and plastic Allows indirect detection of materials inside non-metallic containers Built-in amplifier accepts a wide range of supply voltages and switches up to 00 ma LED indicator and fixed sensitivity for simple installation Ordering Information TWO-WIRE AC SWITCING SENSORS Size M1 M18 M30 Type Unshielded Nominal detecting distance mm (0.16 in) 8 mm (0.3 in) 1 mm (0.9 in) Part SCR-NO MY1 8MY1 1MY1 number SCR-NC MY 8MY 1MY DC SWITCING SENSORS Size M1 M18 M30 Type Unshielded Nominal detecting distance mm (0.16 in) 8 mm (0.3 in) 1 mm (0.9 in) Part NPN-NO ME1 8ME1 1ME1 number NPN-NC ME 8ME 1ME ACCESSORIES Description PNP-NO MF1 8MF1 1MF1 PNP-NC MF 8MF 1MF Part number Mounting brackets Fits M1 size sensors Y9E-B1 for standard Fits M18 size sensors Y9E-B18 size sensors Fits M30 size sensors Y9E-B30 REPLACEMENT PARTS Description Part number Mounting hardware Fits M1 size sensors (supplied with each sensor) M1-PWS includes one pair of Fits M18 size sensors (supplied with each sensor) M18-PWS plastic nuts Fits M30 size sensors (supplied with each sensor) M30-PWS 1
Specifications AC SWITCING TYPES Part number MY 8MY 1MY Sensor type Capacitive Body Size M1 M18 M30 Supply voltage Current consumption Type Detectable object type Unshielded 90 to 0 VAC, 0/60 z. ma at 00 VAC Metallic and non-metallic objects Sensitivity Fixed Effective maximum detecting mm 8 mm 1 mm distance (with standard target) (0.16 in) (0.3 in) (0.9 in) Standard target size 0 x 0 x 1 mm (grounded mild steel, L x W x ) (.0 x.0 x 0.0 in) Differential travel 0% max. of effective detecting distance Control AC Type SCR-NO ( Y1) output solid- SCR-NC ( Y) state Max. load 00 ma Max. off-state See Leakage Current Characteristics graph in leakage current Engineering Data section Max. on-state See Residual Load Voltage Characteristics graph in voltage drop Engineering Data section Response frequency z Circuit Output short- Not provided protection circuit Weld field immunity Not provided RFI immunity Not provided Indicators Output Operation (red LED) Materials ousing Plastic Sensing face Plastic Cable sheath Plastic Mounting Two metal lock washers and Two metal lock washers and Two metal lock washers and M1 nuts included. Bracket M18 nuts included. Bracket M30 nuts included. Bracket Y9E-B1 optional. Y9E-B18 optional. Y9E-B30 optional. Connections Two-connector cable, m (6.6 ft) length Weight with cable Approx. 6 g (.3 oz.) Approx. 1 g (.1 oz.) Approx. 0 g (7. oz.) Enclosure UL ratings NEMA 1,, 1, 13 IEC 1 IP66 Approvals UL Recognized, File Number E7667 CSA Certified, File Number LR91 Ambient operating temperature to 70 C ( 13 to 18 F) to C (1 to 131 F) Vibration Shock to z, 1. mm (0.06 in) double amplitude Approx. 0 G's
DC SWITCING TYPES Part number M 8M 1M Sensor type Capacitive Body Size M1 M18 M30 Type Unshielded Supply voltage to 30 VDC Current consumption 8 ma at 1 VDC 1 ma at VDC Detectable object type Metallic and non-metallic objects Sensitivity Fixed Effective maximum detecting mm 8 mm 1 mm distance (with standard target) (0.16 in) (0.3 in) (0.9 in) Standard target size 0 x 0 x 1 mm (grounded mild steel, L x W x ) (.0 x.0 x 0.0 in) Differential travel 0% max. of effective maximum detecting distance Control DC Type NPN-NO open collector with pull-up ( ME1) output solid- NPN-NC open collector with pull-up ( ME) state PNP-NO open collector with pull-down ( MF1) PNP-NC open collector with pull-down ( MF) Max. load 00 ma Max. on-state 1 VDC voltage drop Response frequency 0 z Circuit Output short- Not provided protection circuit DC power supply Provided reverse polarity Weld field immunity Not provided RFI immunity Not provided Indicators Target Present (red LED) Materials ousing Plastic Sensing face Plastic Cable sheath Plastic Mounting Two metal lock washers and Two metal lock washers and Two metal lock washers and M1 nuts included. Bracket M18 nuts included. Bracket M30 nuts included. Bracket Y9E-B1 optional. Y9E-M18 optional. Y9E-M30 optional. Connections Three-conductor cable, m (6.6 ft) length Weight with cable Approx. 6 g (.3 oz.) Approx. 1 g (.1 oz.) Approx. 0 g (7. oz.) Enclosure UL ratings NEMA 1,, 1, 13 IEC 1 IP66 Approvals UL CSA Ambient operating temperature to 70 C ( 13 to 18 F) to C (1 to 131 F) Vibration Shock to z, 1. mm (0.06 in) double amplitude Approx. 0 G s 3
OUTPUT DIAGRAMS AND TIMING CARTS AC Switching Types MY MY1 NO MY NC White (Black) Load Target Present Present Prox. switch main circuit Load Operates Operates Operation indicator (LED) Black (Blue) DC Switching Types ME NPN The dotted line shows a transistor circuit load. Red (Brown) + V MF PNP The dotted line shows a transistor circuit load. Red (Brown) + V Prox. switch main circuit.7 K Ω. Ω White Load (Black) Output Black (Blue) Tr Prox. switch main circuit.7 K Ω. Ω White (Black) Output Load Black (Blue) Tr 0 V 0 V 00 ma max. source current. 00 ma max. source current. Note: IEC colors are shown in parentheses. ME1 NO ME NC MF1 NO MF NC Target Present Present Target Present Present Load (between red and white) Operates Operates Load (between black and white) Operates Operates Logic (between white and black) L L Logic (between white and red) L L Operation indicator (LED) Operation indicator (LED) Engineering Data Operating Range M 18 16 1 1 8 6 1M Y Standard target: plate 0x0x1mm 8M M 0 0 1 0 1 0 M detecting head 8M detecting head 1M detecting head
Detecting Distance vs. Size and Material of Target M 8M 1M Detecting distance (mm) 3 1 t 3 0 0 30 0 0 60 70 Size of target (mm) Detecting distance (mm) 8 6 t 3 Acrylic resin 0 0 30 0 0 60 70 Size of target (mm) Detecting distance (mm) 0 1 t 3 Acrylic resin 0 0 30 0 0 60 70 Size of target (mm) Detecting Distance vs. Thickness and Material of Target M 8M 1M Detecting distance (mm) 3 1 t 0 Detecting distance (mm) 8 6 t 0 Acrylic resin Detecting distance (mm) 0 1 t 0 Acrylic resin 0 1 0 Thickness of target t (mm) 0 1 0 0 1 0 Thickness of target t (mm) Thickness of target t (mm) Residual Load Voltage Characteristics AC switching types 0 VAC 00 VAC 0 0 Residual output voltage 00 Residual output voltage Load voltage V L (V) 80 60 0 V L 0 VAC Load voltage V L (V) 160 80 V L 00 VAC 0 Residual load voltage 0 3 30 0 0 00 Load current (ma) Residual load voltage 0 3 30 0 0 00 Load current (ma) Note: When the current rating of the load is less than ma, false operation may occur. This is normal, and the problem can be cured by installing a bleeder resistor in parallel with the load. Use the formulas given here to calculate the power rating and value of the resistor. 0 R < Vs (kω) P > Vs (mw) = i R P i Vs : Power rating of bleeder resistor : Load current (ma) : Supply voltage (V)
Leakage Current Characteristics AC switching types MY.0 Leakage current (ma) 1. 1.0 ( state) Protective resistor AC power supply (0/60z) 0 0 00 300 Supply voltage (V) Dimensions SENSORS Unit: mm M 8M 17 (0.67) across flats 0 (0.79) 80 (3.0),000 60 (.36) (78.7) (0.16) Indicator (0.9) across flats 0 (0.79) 80 (3.0),000 60 (.36) (78.7) (0.16) Indicator 1. (0.9) dia. Two clamping nuts Two toothed washers Cable: mm OD m (6.6 ft) length 18. (0.73) dia. Cable: 6 mm OD m (6.6 ft) length Two clamping nuts Two toothed washers 1M 36 (1.) across flats (0.39) 80 (3.0) 60 (.36) (0.0),000 (78.7) Indicator 30. (1.0) dia. Two clamping nuts Two toothed washers Cable: 6 mm OD m (6.6 ft) length OPTIAL MOUNTING BRACKETS A F B Part Drawing dimensions Applicable number A B C D E F sensor models Y9E-B1 ± 0. 1. max. 0 1 dia. 37 max. M x bolt M Y9E-B18 3 ± 0. 17 max. 30 18 dia. 37 max. M x 3 bolt 8M Y9E-B30 ± 0. 17 max. 0 30 dia. 60 max. M x 0 bolt 1M D C 6 E
Mounting TIGTENING FORCE Do not exceed the torque listed in the table at right when tightening the mounting nuts. Part number Maximum torque kg-cm in-lbs M 8 7 8M 0 17 1M 0 17 EFFECTS OF SURROUNDING METAL When mounting the proximity sensor in or near a metallic panel, be sure to provide a minimum distance as shown in the tables below. This prevents the sensor from being affected by metallic objects other than the target. When Mounting Directly to Metal Panel or Object Drawing dimension Sensor model M 8M 1M 0 mm (0.79 in) 0 mm (0.79 in) mm (0.39 in) d (dia.) 0 mm (1.97 in) 0 mm (1.97 in) 0 mm (1.97 in) D 0 mm (0.79 in) 0 mm (0.79 in) mm (0.39 in) m 8 mm (0.3 in) 1 mm (0.7 in) mm (0.98 in) n 60 mm (.36 in) 60 mm (.36 in) 60 mm (.36 in) To ground D ød Metal n m When Using Optional Mounting Brackets G Drawing dimension Sensor model M 8M 1M G 0 mm (0.79 in) 0 mm (0.79 in) mm (0.39 in) 30 mm (1.18 in) 30 mm (1.18 in) 30 mm (1.18 in) MUTUAL INTERFERENCE To prevent mutual interference between two sensors, be sure to space the two sensors at a distance greater than that shown in the table below. Drawing dimension Sensor model M 8M 1M A 80 mm (3.1 in) mm (.91 in) 300 mm (11.81 in) B 70 mm (.76 in) 1 mm (.33 in) 00 mm (7.87 in) A B REQUIRED WARM-UP TIME BEFORE OPERATI AC Switching Sensors After applying power to a proximity sensor, a minimum of 0 ms is required before the sensor circuit reaches its steady state. The load is in the state during this period. Do not move the target toward or away from the proximity sensor until the sensor circuit enters the steady state. The operation indicator (LED) will illuminate momentarily when the power is turned or, but the output stage circuit is in a normal operating state. DC Switching Sensors In applying any of the ME series proximity sensors as a voltage output type, note that an unwanted output may be produced momentarily (0 ms max.) when power is applied with a target moving toward the ME1(F1) or with a target moving away from the ME(F). After the power application, a minimum of 0 ms is required before the sensor circuit can operate. Move the target toward or away from the proximity sensor after this time period. 7
USING METAL CDUIT If a high voltage or power line runs near the proximity sensor cable, be sure to wire the sensor cable through a metal conduit to protect the sensor from malfunctioning or damage. SURGE PROTECTI The proximity sensor is provided with a surge suppressor circuit. owever, if any large surge generation source (i.e. motor, welding machine, etc.) exists in the vicinity of the proximity sensor, insert a surge suppressor (such as a varistor) into the surge generating source. NOTE: ALL DIMENSIS ARE IN MILLIMETERS. To convert millimeters into inches, divide by.. Omron Europe B.V. EMA-ISD, tel:+31 3 681390, fax:+31 3 681397, http://www.eu.omron.com/ema 8 Cat. No. CEDSA 3/97 Specifications subject to change without notice. Printed in the U.S.A.