Magnetic sensors for cylinders General The limit switches, or magnetic sensors, have to be mounted on cylinders with magnetic piston. These, when hit by the magnetic field generated by the piston as it approaches, close the circuit sending an electrical signal by relè solenoid valve control, etc. or converse with the controlling electronic system situaded on the machine. There are available magnetic sensor with ampulla Reed type and with Hall effect. The sensors are attached to the cylinder by a proper clamp, slot or adaptator and have an activation LED indicator. Note: The magnetic sensors are according to the Directive EMC 89/33/CEE and following amendments. Instruction on how to use the sensors properly Particular attention should be paid in order not to exceed the wide operating limits shown into the next pages. Besides, the wires sensors have never to be connected to the mains if a load has not been yet connected in series.these are the only cares that, if not followed, may cause damages to the sensor. Furthermore it has to be considered that, while loading, the current absorbed by the sensors might be 50% higher that the rated one. The switch semiconductor construction design makes this sensors extremely compatible, there are no limitation to the type of load applied : inductive, capacitive resistive. In case of direct current (DC) feeding, the polarity of the connection has to be observed: the cable must be connected to the plus (+) and the one to the minus (-). The cable length must not exceed 10mtrs. If the cable needs to be longer then 10 mt, we recommend to insert in series an inductance or a resistance to counteract the capacity generated by the cable itself. When using a two wire REED type sensor always ensure that the correct load is applied in series on any of the two wires. When using a sensor fitted with the SNAP connector pay attention to the orientation of the connector (see fig. page.3) because by inverting the connection the circuit will not be damaged, but the LED will not turn on. In case of two or more sensors connected in series pay attention to tension drop generated (around 3V for each sensor), and eventually use the version designed for in series connection. The Hall effect sensors, which do not include any moving mechanical parts are longer lasting if compared to the Reed version besides, there are some other external factors to be taken into consideration, such as proximity of powered cables, magnetic fields produced by electric motors, mass of iron too close to the sensor, and so on: these factors have to be therefore carefully avoided, being able to influence the sensors and accordingly to cause irregularity of operation..1
Magnetic sensors REED style with wire cable 14,5 14,5 7 15,5 7 1 type A 1. 5.5.5 1 for cylinders and microcylinders for rodless cylinders Diagrams and connections SENSORS WITH WIRES CABLE Ordering code (PUR Ø4. mm x 0.34mm ) Cylinders and microcylinders 1500.AC 1500.DC sensor for alternating current with led sensor for continuous current with led 1500. U universal sensor with led Type - AC 1500.U/1 universal sensor without led (REED ampulla only) Rodless cylinders Technical characteristics Maximum permanent current Maximum current (pulses of 0,5 sec.) Maximum permanent power Maximum voltage drop section 100.AC 100.DC 100.U/1 A.C. 1,5A 1,A 1,5A 1 - V 3W IP 5 Connecting time ms Disconnecting time 1 ms 7 Average working period 10 cicles Repetition of intervention point ± 0,1 mm Type of contact The load () can be connected either to negative or positive pole. A 1 - V 375VA 3V max These sensors can be used on cylinders series: D.C. sensor for alternating current with led sensor for continuous current with led 100.U universal sensor with led universal sensor without led (REED ampulla only) V max a.c. 3 - V 0VA U U/1 d.c. a.c. 0,5A 1A 1-48V 15W -0 C - 70 C 3V max x0,34 mm² Ø4, mm PUR 0 - V 10VA 0,3A 0,8A 0V d.c. 0-48V 8W Type - DC Type - U Type U/1 SERIES DESCRIPTION MOUNTED for microcylinders with threaded end covers and TECNO-MIR microcylinders with clamps code 10.Ø.F 100 for microcylinders "MIR" with rolled end covers, cylinders from Ø1 to Ø3 for microcylinders "MIR-INOX" with rolled end covers for cylinders from Ø3 to Ø3 with clamps code 180.Ø.F with clamps code 180.Ø.FX with brackets code 1.A 1-17 - 18 for cylinders from Ø80 to Ø15 with brackets code 1.B for cylinders from Ø10 to Ø00 with brackets code 1.C for cylinders Ø50 (ISO) for cylinders Ø3 and Ø40 for cylinders Ø50 and Ø3 with brackets code 1.D with brackets code 1.A with brackets code 1.B 1319-1 for cylinders Ø80 and Ø100 with brackets code 1.C for cylinders Ø15 with brackets code 1.D for cylinders Ø10 for cylinders Ø00 with brackets code 1.E with brackets code 1.F for cylinders ECOLIGHT Ø3 and Ø40 with brackets code 1390.A 1390-1391 for cylinders ECOLIGHT Ø50 and Ø3 with brackets code 1390.B for cylinders ECOLIGHT Ø80 and Ø100 with brackets code 1390.C for cylinders ECOLIGHT Ø15 - Ø00 with brackets code 1390.D 1500 Compact cylinders "Europe" (from Ø3) 105 Rodless cylinders with brackets code 100.A.
Magnetic sensor REED style for connector 9 9 15.5 1 for cylinders and microcylinders for rodless cylinders type A 1. 0. 0. 1 15.5 1.5 5.5 SENSOR FOR SNAP CONNECTOR WITH TWO WIRES Ordering code (PVC Ø3.5 mm x0.5mm ) Cylinders and Microcylinders RS.DC RS.UA RS.UC RS.UA/1 sensor for continuous current with led normally open universal sensor with led normally open universal sensor with led normally closed N.C. universal sensor without led (REED ampulla only) Rodless cylinders SRS.DC sensor for continuous current with led normally open SRS.UA universal sensor with led SRS.UC universal sensor with led normally closed N.C. SRS.UA/1 universal sensor without led C1 C C3 connector with.5 m. cable connector with 5 m. cable connector with 10 m. cable SENSOR FOR SNAP CONNECTOR WITH TWO WIRES INCLUSIVE OF C1 CABLE Cilindri e microcilindri RS.DCC1 sensor for DC current with LED and.5 m. cable RS.UAC1 RS.UCC1 RS.UAC1/1 (PVC Ø3.5 mm x0.5 mm ) universal sensor with led with connector and.5 m. cable universal sensor with led N.C. with connector and.5 m. cable universal sensor without led with connector and.5 m. cable (REED ampulla only) Rodless cylinders SRS.DCC1 sensor for continuous current with led normally closed with connector and.5 m. cable SRS.UAC1 SRS.UCC1 SRS.UAC1/1 universal sensor with led with connector and.5 m. cable universal sensor with led N.C. with connector and.5 m. cable universal sensor without led with connector and.5 m. cable (REED ampulla only) SENSOR FOR M8 CONNECTOR WITH THREE WIRES Cylinders and Microcylinders RS8.DC RS8.UA RS8.UC (PUR Ø. mm 3x 0.15 mm ) sensor for DC current with LED and M8 plug universal sensor with LED and M8 plug universal sensor N.C. with LED and M8 plug Rodless cylinders SRS8.DC sensor for DC current with LED and M8 plug SRS8.UA SRS8.UC universal sensor with LED and M8 plug universal sensor N.C. with LED and M8 plug MCH1 MCH cable 3 wires l=.5m with M8 connector cable 3 wires l=5m with M8 connector.3
Magnetic sensor REED style for connector SENSOR FOR SNAP CONNECTOR WITH TWO WIRES ACCORDING TO IEC 947 NORMS (PVC Ø3.5 mm x0.5 mm ) Cylinders and Microcylinders RS.DCNO sensor for continuous current with led normally open, according to standard IEC 947 RS.UANO universal sensor with led normally open, according to standard IEC 947 C1NO connector with.5 m. cable, according to standard IEC 947 CNO connector with 5 m. cable, according to standard IEC 947 C3NO connector with 10 m. cable, according to standard IEC 947 SENSORS FOR IN SERIES ASSEMBLING WITH SNAP CONNECTOR WITH 3 WIRES Cylinders and Microcylinders RS.UA/1L (PVC Ø3.5 mm 3x0.5 mm ) universal sensor with led normally open, for series assembly (3 wires) Rodless cylinders SRS.UA/1L universal sensor with led, for series assembly (3 wires) CH1 CH connector with.5 m. cable (3 wires) connector with 5 m. cable (3 wires) SENSORS FOR IN SERIES ASSEMBLING WITH SNAP CONN. WITH 3 WIRES AND CH1 CABLE (PVC Ø3.5mm 3x0.5 mm ) Cilindri e microcilindri RS.UACH1/1L universal sensor with led with connector and.5 m. cable, for series mounting (3 wires) Cilindri senza stelo SRS.UACH1/1L universal sensor with led with connector and.5 m. cable, for series assembly (3 wires) SENSORS FOR IN SERIES ASSEMBLING WITH M8 CONNECTOR WITH 3 WIRES (PUR Ø. mm 3x 0.15 mm ) Cylinders and Microcylinders RS8.UA/1L universal sensor with LED for in series assembling (3wires) and M8 plug Rodless cylinders SRS8.UA/1L universal sensor with LED for in series assembling (3wires) and M8 plug MCH1 MCH For sensors according to IEC 947 Standard Connection wires 3 PIN cable 3 wires l=.5m with M8 connector cable 3 wires l=5m with M8 connector For 3 wires For wires SNAP & M8 sensors SNAP sensors Connection 3 wires 3 PIN Connection wires PIN 4 Blue (-) 3 Not used 4 Blue (-) 3 Black (signal) 3 Blue (-) SNAP code connectors C1NO Ø 3.5 mm CNO PVC C3NO x 0.5 mm M8 code connectors MC1 Ø. mm MC PUR MC3 x 0.15 mm SNAP code connectors CH1 Ø 3.5 mm CH PVC CH3 3x 0.5 mm M8 code connectors MCH1 Ø. mm MCH PUR MCH3 3x 0.15 mm SNAP code connectors C1 Ø 3.5 mm C PVC C3 x 0.5 mm Technical characteristics Type of contact Maximum permanent current Maximum current (pulses of 0.5 sec.) Maximum permanent power Maximum voltage drop s number Connecting time Disconnecting time Average working period Repetition of intervention point DC 1.A 1.5A 1 - V 3W V 0.5A 1A 3-50V 0VA UA UA/1L UA/1 a.c. d.c. a.c. d.c. a.c. d.c. N.C. 0.3A 0.8A 3-110V 10VA 0.5A 1A 0.8A 1-48V 15W 8W -0 C - 70 C <3V 0V 3 IP5 ms 1 ms N.C. 0.3A 7 10 cicles ±0.1 mm 0VA 0.5A 1A 4V 15W 0.5A 1A 0-50V 0-48V 10VA 8W.4
Magnetic sensor REED style for connector Diagrams and connections Type - UA Type UA/1 Type - UA/1L Type - DC Type - DCNO Type - UC The load () can be connected either to negative or positive pole. These sensors can be used on cylinders series: SERIES DESCRIPTION MOUNTED for microcylinders with threaded end covers and TECNO-MIR microcylinders with clamps code 10.Ø.F 100 for microcylinders "MIR" with rolled end covers, cylinders from Ø1 to Ø3 for microcylinders "MIR-INOX" with rolled end covers for cylinders from Ø3 to Ø3 with clamps code 180.Ø.F with clamps code 180.Ø.FX with brackets code 1.A 1-17 - 18 for cylinders from Ø80 to Ø15 with brackets code 1.B for cylinders from Ø10 to Ø00 with brackets code 1.C for cylinders Ø50 (ISO) for cylinders Ø3 and Ø40 for cylinders Ø50 and Ø3 with brackets code 1.D with brackets code 1.A with brackets code 1.B 1319-1 for cylinders Ø80 and Ø100 with brackets code 1.C for cylinders Ø15 with brackets code 1.D for cylinders Ø10 for cylinders Ø00 with brackets code 1.E with brackets code 1.F for cylinders ECOLIGHT Ø3 and Ø40 with brackets code 1390.A 1390-1391 for cylinders ECOLIGHT Ø50 and Ø3 with brackets code 1390.B for cylinders ECOLIGHT Ø80 and Ø100 with brackets code 1390.C for cylinders ECOLIGHT Ø15 - Ø00 with brackets code 1390.D 1500 Compact cylinders "Europe" (from Ø3) 105 Rodless cylinders with brackets code 100.A.5
Magnetic sensor Hall style with 3 mtrs cable 7 15.5 7 1 type A 1. 1 for cylinders and microcylinders for rodless cylinders.5 5.5 SENSORS WITH 3 WIRES CABLE Ordering code (PUR Ø 4. mm 3x0.34mm ) Cylinders and Microcylinders 1500.HAP PNP sensor Hall effect with led, normally open 1500.HAN NPN sensor Hall effect with led, normally open Rodless cylinders 100.HAP PNP sensor Hall effect with led, normally open 100.HAN PNP sensor Hall effect with led, normally open Technical characteristics Maximum permanent current Power (inductive load) Maximum voltage drop section Connecting time Disconnecting time Average working period Repetition of intervention point Type of contact 0.5A 10 - V DC 10W V -0 C - 70 C PUR 4.mm 3x0.34 mm IP 5 0.8 µs 0.3 µs 9 10 cicles ± 0.1 mm Diagrams and connections PNP NPN These sensors can be used on cylinders series: SERIES DESCRIPTION MOUNTED for microcylinders with threaded end covers and TECNO-MIR microcylinders with clamps code 10.Ø.F 100 for microcylinders "MIR" with rolled end covers, cylinders from Ø1 to Ø3 for microcylinders "MIR-INOX" with rolled end covers for cylinders from Ø3 to Ø3 with clamps code 180.Ø.F with clamps code 180.Ø.FX with brackets code 1.A 1-17 - 18 for cylinders from Ø80 to Ø15 with brackets code 1.B for cylinders from Ø10 to Ø00 with brackets code 1.C for cylinders Ø50 (ISO) for cylinders Ø3 and Ø40 for cylinders Ø50 and Ø3 with brackets code 1.D with brackets code 1.A with brackets code 1.B 1319-1 for cylinders Ø80 and Ø100 with brackets code 1.C for cylinders Ø15 with brackets code 1.D for cylinders Ø10 for cylinders Ø00 with brackets code 1.E with brackets code 1.F for cylinders ECOLIGHT Ø3 and Ø40 with brackets code 1390.A 1390-1391 for cylinders ECOLIGHT Ø50 and Ø3 with brackets code 1390.B for cylinders ECOLIGHT Ø80 and Ø100 with brackets code 1390.C for cylinders ECOLIGHT Ø15 - Ø00 with brackets code 1390.D 1500 Compact cylinders "Europe" (from Ø3) 105 Rodless cylinders with brackets code 100.A.
Magnetic sensor Hall style for connector 0. 15.5 0. 9 9 15.5 1 for cylinders and microcylinders for rodless cylinders type A 1. 1 1.5 5.5 Ordering code SENSORS FOR SNAP CONNECTOR WITH 3 WIRES (PVC Ø3.5 mm 3x0.5 mm ) Cylinders and Microcylinders HS.PA PNP sensor Hall effect with led, normally open Rodless cylinders SHS.PA PNP sensor Hall effect with led, normally open CH1 CH connector with.5 m. cable (3 wires) connector with 5 m. cable (3 wires) SENSORS FOR SNAP CONNECTOR WITH 3 WIRES AND CH1 CABLE (PVC Ø3.5 mm 3x0.5 mm ) Cylinders and Microcylinders Rodless cylinders HS.PAC1 SHS.PAC1 PNP sensor Hall effect with led, with connector and.5 m. cable PNP sensor Hall effect with led, with connector and.5 m. cable SENSORS FOR M8 CONNECTOR WITH 3 WIRES (PUR Ø. mm 3x0.15mm ) Cylinders and Microcylinders HS8.NA HS8.PA NPN Hall effect sensor with LED and M8 plug PNP Hall effect sensor with LED and M8 plug Rodless cylinders SHS8.NA NPN Hall effect sensor with LED and M8 plug SHS8.PA PNP Hall effect sensor with LED and M8 plug MCH1 MCH cable 3 wires l=.5m with M8 connector cable 3 wires l=5m with M8 connector For 3 wires SNAP & M8 sensors Connection 3 wires 3 PIN 4 Blue (-) 3 Black (signal) SNAP code connectors CH1 Ø 3.5 mm CH PVC CH3 3x 0.5 mm M8 code connectors MCH1 Ø. mm MCH PUR MCH3 3x 0.15 mm.7
Magnetic sensor Hall style for connector Technical characteristic Diagrams and connections Maximum permanent current Power (inductive load) Maximum Voltage drop s number Connecting time Disconnecting time Average working period Repetition of intervention point Contact normally open 0.5A - V DC W V -0 C - 70 C 3 IP 5 0.8 ms 0.3 ms 9 10 cicles ± 0.1 mm NPN PNP These sensors can be used on cylinders series: SERIES DESCRIPTION MOUNTED with clamps code 10.Ø.F 100 1-17 - 18 1319-1 for microcylinders with threaded end covers and TECNO-MIR microcylinders for microcylinders "MIR" with rolled end covers, cylinders from Ø1 to Ø3 for microcylinders "MIR-INOX" with rolled end covers for cylinders from Ø3 to Ø3 for cylinders from Ø80 to Ø15 for cylinders from Ø10 to Ø00 for cylinders Ø50 (ISO) for cylinders Ø3 and Ø40 for cylinders Ø50 and Ø3 for cylinders Ø80 and Ø100 for cylinders Ø15 with clamps code 180.Ø.F with clamps code 180.Ø.FX with brackets code 1.A with brackets code 1.B with brackets code 1.C with brackets code 1.D with brackets code 1.A with brackets code 1.B with brackets code 1.C with brackets code 1.D for cylinders Ø10 with brackets code 1.E for cylinders Ø00 with brackets code 1.F for cylinders ECOLIGHT Ø3 and Ø40 with brackets code 1390.A 1390-1391 for cylinders ECOLIGHT Ø50 and Ø3 with brackets code 1390.B for cylinders ECOLIGHT Ø80 and Ø100 with brackets code 1390.C for cylinders ECOLIGHT Ø15 - Ø00 with brackets code 1390.D 1500 Compact cylinders "Europe" (from Ø3) 105 Rodless cylinders with brackets code 100.A.8
Miniaturised magnetic sensors General The limit switches, or magnetic sensors, have to be mounted on cylinders with magnetic piston. These, when hit by the magnetic field generated by the piston as it approaches, close the circuit sending an electrical signal by relè solenoid valve control, etc. or converse with the controlling electronic system situaded on the machine. There are available magnetic sensor with ampulla Reed type and with Hall effect. The sensors are attached to the cylinder by a proper clamp, slot or adaptator and have an activation LED indicator. Note: The magnetic sensors are according to the Directive EMC 89/33/CEE and following amendments. Instruction on how to use the sensors properly Particular attention should be paid in order not to exceed the wide operating limits shown into the next pages. Besides, the wires sensors have never to be connected to the mains if a load has not been yet connected in series.these are the only cares that, if not followed, may cause damages to the sensor. Furthermore it has to be considered that, while loading, the current absorbed by the sensors might be 50% higher that the rated one. The switch semiconductor construction design makes this sensors extremely compatible, there are no limitation to the type of load applied : inductive, capacitive resistive. In case of direct current (DC) feeding, the polarity of the connection has to be observed: the cable must be connected to the plus (+) and the one to the minus (-). The cable length must not exceed 10mtrs. If the cable needs to be longer then 10 mt, we recommend to insert in series an inductance or a resistance to counteract the capacity generated by the cable itself. When using a two wire REED type sensor always ensure that the correct load is applied in series on any of the two wires. In case of two or more sensors connected in series pay attention to tension drop generated (around 3V for each sensor), and eventually use the 3 wire REED version designed for in series connection. The Hall effect sensors, which do not include any moving mechanical parts are longer lasting if compared to the Reed version besides, there are some other external factors to be taken into consideration, such as proximity of powered cables, magnetic fields produced by electric motors, mass of iron too close to the sensor, and so on: these factors have to be therefore carefully avoided, being able to influence the sensors and accordingly to cause irregularity of operation..9
Miniaturised magnetic sensors rectangular section with.5 m. cable X= point of commutation X Weight gr. 7 9.5 0 5.1 type B 5. with cable and M8 connector X 9.5 5 3..3 3.3. Weight gr. 15 ordering codes Ampulla Reed sensors, with led, Universal, (Normally open) X= point of commutation 1580.U MRS.U 1580.UAP ( wires) cable.5 mt. ( wires) cable 0 mm, M8 connector (use MC1 or MC connectors) PNP (3 wires) cable.5 mt. 15 mm 15 mm 15 mm MRS.UAP PNP (3 wires) cable 0 mm, M8 connector (use MCH1 or MCH connectors) 15 mm Hall effect sensors, with led, DC, (Normally open) X=point of commutation 1580.HAP PNP (3 wires) cable.5 mt. 8 mm 1580.HAN NPN (3 wires) cable.5 mt. 8 mm MHS.P PNP (3 wires) cable 0 mm, M8 connector (use MCH1 or MCH connectors) 8 mm Diagrams and connections MAIN CIRCUIT BLK MAIN CIRCUIT BLK BLK MC1 MC MCH1 MCH with Reed bulb ( wires) cable wires l=.5m with M8 connector cable wires l=5m with M8 connector cable 3 wires l=.5m with M8 connector cable 3 wires l=5m with M8 connector Hall-PNP effect (3 wires) Hall-NPN effect (3 wires) with Reed bulb (3 wires) The load () can be connected either to negative or positive pole Technical characteristics Type of contact Output type Maximum current Maximum permanent power Maximum voltage drop section (mm ) 1580.U MRS.U 1580.UAP MRS.UAP 1580.HAP 1580.HAN MHS.P PNP NPN PNP 100mA 14 VA - 10 W 4 VA - 3 W 3 W 5 - V DC/AC 5 - V DC/AC 10 - V DC/AC 10 - V DC -10 C - +70 C 3.5 V 0V V x 0.14 x 0.14 3 x 0.14 3 x 0.14 Ø3.3mm PUR Ø3.3mm PUR Ø3.3 mm PUR Ø3.3 mm PUR IP 7 Even if one sensor generates a voltage drop very close to 0 Volts, we suggest to connect no more than sensors in series. ordering code Connection wires Connection 3 wires 4 Blue (-) 3 Not use 4 Black (signal) 3 Blue (-).10
Miniaturised magnetic sensors oval section with.5 m. cable X= point of commutation Weight gr. 7 X 0 type B 5. with cable and M8 connector X 4.3 3.3. Weight gr. 15 ordering codes Ampulla Reed sensors, with led, Universal, (Normally open) 1590.U ( wires) cable.5 mt. LRS.U ( wires) cable 0 mm, M8 connector (use MC1 or MC connectors) 1590.UAP PNP (3 wires) cable.5 mt. LRS.UAP PNP (3 wires) cable 0 mm, M8 connector (use MCH1 or MCH connectors) X= point of commutation 8 mm 8 mm 8 mm 8 mm Hall effect sensors, with led, DC, (Normally open) 1590.HAP PNP (3 wires) cable.5 mt. LHS.P PNP (3 wires) cable 0 mm, M8 connector (use MCH1 or MCH connectors) X=point of commutation mm mm Diagrams and connections BLK BLK with Reed bulb ( wires) Hall-PNP effect (3 wires) with Reed bulb (3 wires) The load () can be connected either to negative or positive pole Technical characteristics Type of contact Maximum current Maximum permanent power Maximum voltage drop section (mm ) IP 7 Even if one sensor generates a voltage drop very close to 0 Volts, we suggest to connect no more than sensors in series. MC1 MC MCH1 MCH cable wires l=.5m with M8 connector cable wires l=5m with M8 connector cable 3 wires l=.5m with M8 connector cable 3 wires l=5m with M8 connector 1590.U LRS.U 1590.UAP LRS.UAP 1590.HAP LHS.P 100mA 500mA 14 VA - 10 W 14 VA - 10 W 5 - V DC/AC 10 - V DC/AC -10 C - +70 C 3 V 0V x 0.14 Ø3 mm PUR ordering code Connection wires 3 x 0.14 Ø3 mm PUR Connection 3 wires 00mA W 10 - V DC 1.5 V 4 Blue (-) 3 Not use 4 Black (signal) 3 Blue (-).11
Miniaturised magnetic sensors round section with.5 m. cable X= point of commutation X 5.5 10 type C.8 Weight gr..8 with cable and M8 connector X 5.5 4 4.5 Ø4 type D 4.5 3.5 4 Weight gr. 10 ordering codes Ampulla Reed sensors, with led, Universal, (Normally open) 1581.U ( wires) cable.5 mt. TRS.U ( wires) cable 100 mm, M8 connector (use MC1 or MC connectors) X= point of commutation 10 mm 10 mm Hall effect sensors, with led, DC, (Normally open) X=point of commutation 1581.HAP PNP (3 wires) cable.5 mt. 7.5 mm THS.P PNP (3 wires) cable 100 mm, M8 connector (use MCH1 or MCH connectors) 7.5 mm Diagrams and connections BLK with Reed bulb ( wires) Hall-PNP effect (3 wires) The load () can be connected either to negative or positive pole Technical characteristics Type of contact Maximum current Maximum permanent power Maximum voltage drop section (mm ) 1581.U TRS.U 1581.HAP THS.P 50mA 8 VA - 1.5 W 1.5 W 5 - V DC/AC 10 - V DC -10 C - +70 C 3.5 V 1 V x 0.14 Ø.8 mm PUR IP 7 3 x 0.14 Ø.8 mm PUR ordering code Connection wires MC1 MC MCH1 MCH cable wires l=.5m with M8 connector cable wires l=5m with M8 connector cable 3 wires l=.5m with M8 connector cable 3 wires l=5m with M8 connector Connection 3 wires 4 Blue (-) 3 Not use 4 Black (signal) 3 Blue (-).1
Miniaturised magnetic sensors Rectangular section version (for sensor slot type B ) 100 1319-1 135-1345 13-133 1348-1349 SERIES DESCRIPTION MOUNTED Microcylinders with threaded end covers and TECNO-MIR microcylinders Microcylinders "MIR" with rolled end covers Microcylinders "MIR-INOX" with rolled end covers for cylinders Ø3 - Ø40 for cylinders Ø50 - Ø3 for cylinders Ø80 - Ø100 138-87 / 139-97 Cylinders according to standard ISO 1555 ECOPLUS 1390-1391 Cylinders according to standard ISO 1555 ECOLIGHT Warning: To use only into the lateral slot, from Ø3 to Ø3 cylinders. (do not use into the slots positioned on the side of feeding connection) with camps code 10.Ø.FS with camps code 180.Ø.FS with camps code 180.Ø.FSX with brackets code 1.AS with brackets code 1.BS with brackets code 1.CS 1370-1373 Cylinders according to standard ISO 1555 ECOFLAT Short stroke compact cylinders with adapter code 1380.01F from Ø1 to Ø5: 1500 Compact cylinders "Europe" from Ø3 to Ø50: or with adapter 1380.01F Compact cylinder according to standard ISO 187ECOMPACT 105 Rodless cylinders 100 Guided compact cylinder (Ø0 - Ø3) 101 Heavy duty guided shortstroke cylinder 00 Twin rod slides units 10 Push/pull twin rod slides units 1 Pneumatic grippers, angular standard version 3 180 angular gripper rack & pinion style 310 Parallel style pneumatic grippers standard version (Ø10) 311 Parallel style pneumatic grippers wide opening 31 3 finger parallel style pneumatic grippers (Ø3 - Ø15) 410 Single rack Rotary actuators from Ø3 to Ø100: with adapter cod. 1380.01F with adapter code 100.B Oval section version (for sensor slot type B ) SERIES DESCRIPTION MOUNTED 138-87 / 139-97 Cylinders according to standard ISO 1555 ECOPLUS 1390-1391 Cylinders according to standard ISO 1555 ECOLIGHT 1370-1373 Cylinders according to standard ISO 1555 ECOFLAT Compact cylinders "Europe" 1500 Compact cylinder according to standard ISO 187 ECOMPACT 100 Guided compact cylinder (Ø0 - Ø3) 101 Heavy duty guided shortstroke cylinder 00 Twin rod slides units 10 Push/pull twin rod slides units 1 Pneumatic grippers, angular standard version 3 180 angular gripper rack & pinion style 310 Parallel style pneumatic grippers standard version (Ø10) 311 Parallel style pneumatic grippers wide opening 31 3 finger parallel style pneumatic grippers (Ø3 - Ø15) 410 Single rack Rotary actuators from Ø1 to Ø5: Round section version (for sensor slot type C and D ) SERIES DESCRIPTION 100 Guided compact cylinder (Ø1 - Ø1) Pneumatic grippers, 180 angular 310 Parallel style pneumatic grippers standard version (Ø10 and Ø1) 31 3 finger parallel style pneumatic grippers (Ø1 - Ø5) 400 Double rack Rotary actuators with turn table 500 Arbitrary mount cylinders 00 Slide cylinders 700 Guide cylinders MOUNTED.13