ENVIRONMENTAL TECHNOLOGY21XX
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- Offer Profile
- We have been developing and manufacturing precision sensors for position and distance measurement since 1999. As an innovative company with headquarters in Taufkirchen near Munich and a branch in Brühl near Cologne, we sell our products all over the world, and we currently have direct points of contact at distributors in over 30 countries.
Our goal is to provide our customers with the best possible measurement technique solution. This is why we develop and produce sensors with a wide range of specifications for various applications in industry and research. Our product range includes both premium sensors and custom solutions, from protoTypee to series production. Products made in Taufkirchen are subject to rigorous quality standards and every single one is delivered to our customers with a calibration certificate.
Product Portfolio
Draw Wire Sensors
- Draw wire sensors are low-cost, compact sensors which accurately measure the position or change in position of objects. Core components of a draw wire sensor are a precision measuring wire and a sensor element (e.g. potentiometer or encoder), which convert the path change into a proportional electrical signal. The maintenance-free draw wires are particularly quick and easy to assemble and are used because of their reliability in all areas of industry.
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Draw Wire Sensors SX-Series
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- SX50 up to 1250 mm
- SX80 up to 3000 mm
- SX120 up to 5000 mm
- Rangesfrom 50 to 5000 mm
- Linearity max.±0.02 %
- Output analog10 0…V, 4…20mA, Potentiometer
- Output digitalTTL, HTL, SSI, Profibus, CANopen, EtherCAT, Profinet
- Protection classIP65 (optional IP67)
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Long Range Sensor SX135
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- SX135 up to 8 m
- SX135 up to 42.5 m
- Ranges6 / 7 / 8 / 10 / 12 / 15 / 20 / 25 / 30 / 35 / 42.5 m
- Linearity max.±0.02 %
- Output analog10 0…V, 4…20mA, Potentiometer
- Output digitalTTL, HTL, SSI, Profibus, CANopen, EtherCAT, Profinet
- Protection classIP65 (optional IP67)
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Draw Wire Mechanics Series SX
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- Rangesfrom 1 to 42.5 m
- Linearity max.±0.05 % (encoder output)
- Temperature range-20...+85 °C (optional -40 °C)
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Draw Wire Sensors MH-Series
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- MH120 up to 10 m
- MH60 up to 4 m
- Rangesfrom 1000 to 10000 mm
- Linearity max.±0.1 %
- Output analog0...5 V, 0...10 V, 4...20 mA, Potentiometer, optional redundant
- Output digitalCANopen, optional redundant
- Protection classIP67 (optional IP69K)
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Hydraulic Transducer SX300
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- Ranges15 m
- Linearity max.±0.05 %
- Output digitalSSI, Profibus, CANopen, Profinet, EtherCAT
- Output analog4...20 mA
- Protection classIP65 (optional IP67)
- Operation pressureup to 300 bar
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Compact Sensor LX
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- Rangesfrom 50 to 1250 mm
- Linearity max.±0.1 %
- Output analog1 kOhm PotentiometerOutput digitalTTL Encoder
- Protection classIP40
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Draw Wire Sensor FX-HM
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- Rangesfrom 50 to 375 mm
- Linearity max.±1 %
- Output analog10 0…VDC + 0...0.4 VDC
- Resolution0.024 %
- Protection classIP52
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Draw Wire Sensor ZX
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- Range38 mm
- Linearity max.±1 %
- Output analog电位计,VDC(±3 89%%) of Excitation Voltage
- Resolution0.04 mm
- Protection classIP40
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HX with speed output
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- Rangesfrom 100 mm to 50 m
- Linearity max.±0.1 %
- Output analog10 0…V, 4…20mA, Potentiometer
- Output digitalTTL, HTL
- Protection classIP65 (optional IP68)
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Velocity sensor VX-Series
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- Travel rangeup to 42.5 m
- Velocity measurement max.10 m/s
- Accuracy max.±1 %
- OutputV/m/s
- Protection classIP65 (optional IP67)
Inductive Sensors LVDT
- LVDTs (Linear Variable Differential Transformers) are displacement sensors that operate according to the inductive measuring principle. The position sensors measure precisely by means of a spring-loaded or non-spring-loaded push rod on the measured object. The push rod of an LVDT can be equipped with different probe heads (e.g. ball tips, probe plates, probe rollers) or with articulated eyes. Versions for hydraulic applications are also available.
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LVDT LV
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- Measurement range2 mm, 5 mm, 10 mm, 25 mmLinearity max.±0.1 %
- Resolution max.0.8 µm
- Output analog4...20 mA, 0...10 V
- Protection classIP67
- TypeeSpring loaded or guided rod, with bellows or ball joint eyes
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LVDT LVIT
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- Measurement range2 mm, 5 mm, 10 mm, 20 mm
- Linearity max.±0.25 %
- Output analog10 0…V
- Protection classmax. IP65
- Typeeexternal thread M12, integrated electronics
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LVDT LVIG
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- Measurement range2 mm, 5 mm, 10 mm, 20 mm, 50 mm, 100 mm, 200 mm
- Linearity max.±0.1 %
- Output analog10 0…V, 4…20mA
- Protection classmax. IP67
- Typeewith ball joint eyes, with integrated or for external electronics
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LVDT LVISM
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- Measurement range2 mm, 5 mm, 10 mm
- Linearity max.±0.25 %
- Output analog10 0…V, 4…20mA
- Protection classIP65
- TypeeMiniature housing ∅ 4 mm, rod with M2.5 thread
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LVDT LVPH
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- Measurement range25 mm, 50 mm, 100 mm, 150 mm, 200 mm, 500 mm
- Linearity max.±0.1 %
- Output analog10 0…V, 4…20mA
- Protection classIP67
- Operating pressure350酒吧
Laser Sensors
- Due to their high resolution laser sensors are ideal for non-contact precision measurement of distance, route and position. Through an advanced analysis method the electronics of the laser sensor calculates the exact distance to the measurement object by means of triangulation or phase shift. The compact and robust design of the sensors makes measuring possible even under cramped conditions.
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Laser Sensor LAS
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- Ranges10 - 800 mm
- Resolution2 µm
- Linearity max.±6 µm
- Frequency max.5 kHz
- Output10 0…V, 4…20mA
- Protection classIP67
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Laser Sensor LAR
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- Ranges10, 30, 70, 160, 400 mm
- Repeatability max.10 μm
- Linearity max.±0.1 %
- Frequency max.660 Hz
- Output0...5 V, 4...20 mA, PNP, NPN
- Protection classIP67
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Laser Sensor LAH-G1
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- Ranges4 - 300 mm
- Resolution max.0.5 μm
- Linearity max.±0.1 %
- Frequency max.5 kHz
- Output10 0…V; 3.2...20.8 mA; PNP; NPN
- Protection classIP67
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Laser Sensor LAW
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- Range4 mm
- Resolution max.0,06 µm
- Linearity max.±2 µm
- Frequency max.30 kHz
- Output10 0…V / 4...20 mA / Ethernet TCP/IP
- Protection classIP67
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Laser Sensor LAV
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- Ranges8 m, 50 m
- Resolution max.
- Linearity max.±25 mm
- Frequency max.100 Hz
- Output4...20 mA, IO-Link
- Protection classIP65
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Long Distance Laser LDI
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- Ranges0.05...500 m
- Repeatability max.±0.3 mm
- Linearity max.±1 mm
- Frequency50 Hz
- Output0...20 mA, 4...20 mA, RS232, RS422, RS485, SSI, ProfiNet, EtherNet/IP, EtherCAT
- Protection classIP65
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远距离激光lld - 150
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- Ranges0.2...150 m
- Resolution max.0.1 mm
- Linearity max.±3 mm, repeatability ±0.5 mm
- Frequency10 Hz or 50 Hz
- Output4...20 mA, RS232, RS422, Profibus
- Protection classIP65
Linear Potentiometers
- Linear potentiometers are an inexpensive and reliable way to measure distances or positions. These resistive sensors work as a voltage divider via a hybrid layer of plastic and are available up to a protection class of IP67. Linear potentiometers combine simple design with high precision (linearity up to 0.05% of the FS). A wide variety of designs and mounting options enable use in countless applications.
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Linear Potentiometer LRW
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- TypeRectangular
- Ranges50 - 900 mm
- Linearity max.±0.05 %
- Protection class max.IP67
- Displacement speed≤10 m/s (IP60 / IP65), ≤3 m/s (IP67)
- Operating temperature-30年……+ 100°C
- MaterialAluminium housing, stainless steel rod (IP60, IP65), chrome steel rod (IP67)
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Linear Potentiometer LRW1
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- TypeRectangular, through-rod structure with double rod support
- Ranges25 - 150 mm
- Linearity max.±0.05 %
- Protection class max.IP40
- Displacement speed≤10 m/s
- Operating temperature-30年……+ 100°C
- MaterialAluminium housing / stainless steel rod
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Linear Potentiometer LRW2/LRW3
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- TypeRectangular, double support and return spring
- Ranges10 - 150 mm
- Linearity max.±0.05 %
- Protection classIP40
- Displacement speed≤10 m/s
- Operating temperature-30年……+ 100°C
- MaterialAluminium (housing) / stainless steel (rod)
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Linear Potentiometer LMI12-SE/LMI12-SL
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- TypeRectangular with magnetic dragRanges50 - 1000 mm
- Linearity max.±0.35 %
- Protection classIP67
- Displacement speed≤5 m/s
- Operating temperature-30年……+ 100°C(LMI-SL), -30...+80 °C (LMI-SE)
- Operating pressure250 bar
- MaterialAluminium
- Outputpotential divider (LMI-SL), 4...20 mA (LMI-SE)
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Linear Potentiometer LZW
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- TypeCylindrical, self-aligning rod end bearingRanges50 - 750 mm
- Linearity max.±0.05 %
- Protection class max.IP67
- Displacement speed≤5 m/s (IP65), ≤3 m/s (IP67)
- Operating temperature-30年……+ 100°C
- MaterialAluminium housing, stainless steel rod (IP65), chrome steel rod (IP67)
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Linear Potentiometer LZW1
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- TypeCylindrical, mounting with rod end bearings / flange / brackets
- Ranges25 - 250 mm
- Linearity max.±0.05 %
- Protection classIP60
- Displacement speed≤10 m/s
- Operating temperature-30年……+ 100°C
- MaterialAluminium housing / stainless steel rod
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Linear Potentiometer LZW2-IP
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- TypeCylindrical, mounting with brackets / rod end bearings
- Ranges25 - 300 mm
- Linearity max.±0.05 %
- Protection classIP67
- Displacement speed≤3 m/s
- Operating temperature-30年……+ 100°C
- MaterialAnodised aluminium (housing), chrome steel (rod)
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Linear Potentiometer LZW2-SP
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- TypeCylindrical, measuring probe with return spring
- Ranges25...200 mm
- Linearity max.±0.05 %
- Protection classIP65
- Displacement speed≤10 m/s
- Operating temperature-30年……+ 100°C
- MaterialAnodised aluminium (housing), stainless steel (rod)
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Linear Potentiometer LMS18
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- TypeCylindrical with magnetic dragRanges50 - 1000 mm
- Linearity max.±0.05 %
- Protection classIP67
- Displacement speed≤5 m/s
- Operating temperature-30年……+ 100°C
- Materialanodised aluminium, PSU
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Linear Potentiometer LSW
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- TypeRectangular, sledge type
- Ranges100 - 2000 mm
- Linearity max.±0.05 %
- Protection classIP40
- Displacement speed≤10 m/s
- Operating temperature-30年……+ 100°C
- MaterialAnodised aluminium housing
Magnetic Scales
- Magnetic Scales by WayCon consist of a reading head and a linear magnetic tape. The sensor head fed without contact over the magnetic tape and is technically wear-free. The digital magnetic scale has a accuracy up to ±15 μm by a measurement length up to 100 m. Magnetic scales are also called digital rulers.
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Analog Magnetic Scales MXAZ
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- Measurement rangeup to 1250 mm
- Linearity max.±2 μm
- Resolution max.teachable
- Gap sensor / tape0.1...2 mm
- Output4...20 mA, 0...10 V
- Protection classIP68
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Digital Magnetic Scale MXS2
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- Measurement rangeup to 8165 mm
- Linearity max.±2 μm
- Resolution max.1 μm
- Gap sensor /tape0.1...0.6 mm
- OutputSSI, BiSS, NPN (for speed feedback)
- Protection classIP67
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Digital Magnetic Scales MXW11 / MXI11
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- Measurement rangeup to 100 m
- Linearity max.1% (MXW11), ±15 μm (MXI11)
- Resolution max.theoretically infinite (MXW11), 0.5 μm (MXI11)
- Gap sensor /tape0.1...0.5 mm
- Output1 Vpp (MXW11), HTL or TTL (MXI11)
- Protection classIP67
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Digital Magnetic Scales MXW21 / MXI21
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- Measurement rangeup to 100 m
- Linearity max.1% (MXW21), ±15 μm (MXI21)
- Resolution max.theoretically infinite (MXW21), 1 μm (MXI21)
- Gap sensor / tape0.1...1 mm
- Output1 Vpp (MXW21), HTL or TTL (MXI21)
- Protection classIP67
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Digital Magnetic Scales MXI51
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- Measurement rangeup to 100 m
- Linearity max.±15 μm
- Resolution max.5 μm
- Gap sensor /tape0.1...2 mm
- OutputHTL or TTL
- Protection classIP67
Non-contact Inductive Sensors
- Non-contact inductive sensors generate a high-frequency electromagnetic field. Eddy currents are generated in metallic measuring objects within this field, which lead to a change in inductance. This distortion of the inductance is in turn influenced by the distance, the material and the size of the object. The sensor detects the change in inductance and converts it into a proportional output signal.
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Inductive Sensors ISZL
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- Measurement range0...6 mm, 0...8 mm, 0...24 mm
- Linearity max.±0.025 mm
- Resolution max.0.01 mm
- Output analog4...20 mA, 0...10 V
- Protection classIP67
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Inductive Sensor ISZH
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- Measurement range0...2 mm
- Linearity max.±60 µm
- Resolution max.0.012 µm
- Output analog0...20 mA
- Protection classIP67
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Inductive Sensors ISIP
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- Measurement range0...7 mm
- Linearity max.±0.35 mm
- Resolution max.0.005 mm
- Output analog4...20 mA
- Protection classIP68/IP69K
Eddy Current Sensors
- The distance, the position or the change of position of an electrically conductive material can be detected contactless and wear-free by an eddy current sensor. A high-frequency alternating current feeds a coil in the sensor head. The resulting electromagnetic field induces an eddy current in the material to be measured, perpendicular to the excitation field. The resulting change in the AC resistance of the coil is directly proportional to the distance of the sensor from the target material.
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Eddy Current Probe WST
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- Measurement range0...4 mm
- Linearity max.±1 %
- Resolution max.0,4 µm
- Output10 0…V, 4…20mA, 0...20 mA
- Frequency5 / 20 / 50 kHz
- Protection classSensor IP65, connector IP44 / optional IP65
- Working Temperature max.-20...+125 °C
Magnetostrictive Transducers
- Magnetostrictive distance transducers enable contact-free and wear-free measurement. The housing of this transducer has a measuring element (waveguide) which, in interaction with an external, freely movable magnet, can map distances very accurately. Sensors of this class have been successfully used in automation, level measurement and in hydraulic cylinders at pressures up to 350 bar for many years.
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Magnetostrictive Transducer MAB
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- Ranges50 - 2500 mm
- Resolution max.2 µm
- Measured valueposition / speed (not with SSI-output)
- Linearity max.±0.01 %
- Displacement speed
- Analog output0 - 10 V, 4 - 20 mA
- Digital outputSSI, CANopen
- Voltage supply24 VDC ±20 %
- Protection classIP67
- Operating temperature-30..+75 °C (+90 °C for SSI output)
- Magnetic cursorsilding cursor, floating cursor
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Magnetostrictive Transducer MAP
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- Ranges50 - 1500 mm
- Resolution max.有限的by the quality of the power supply
- Linearity max.±0.04 % (min. ±0.09 mm)
- Displacement speed
- Analog output0.1 - 10.1 V, 4 - 20 mA
- Voltage supply24 VDC ±20 %
- Protection classIP65
- Operating temperature-20...+75 °C
- Magnetic cursorsliding or floating magnetic cursor
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Magnetostrictive Transducer MAZ
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- Ranges50 - 2500 mm
- Resolution max.2 µm
- Measured valueposition and speed with CANopen
- Linearity max.±0.02 %
- Displacement speed
- Analog output0 - 10 V, 4 - 20 mA
- Digital outputSSI, CANopen
- Voltage supply24 VDC ±20 %
- Protection classIP67 / max. 350 bar
- Operating temperature-30年……+75 °C (-30...+90 °C for SSI output)
- Magnetic cursormagnetic cursor or floating cursor for liquids
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Magnetostrictive Transducer MSB
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- Ranges50 - 4000 mm
- Resolution max.10 µm
- Linearity max.±0.02 %
- Displacement speed
- Analog output0.1 - 10.1 V, 0.1 - 5.1 V, 4 - 20 mA
- Voltage supply24 VDC ±20 %, (12 VDC for output, 0.1...5.1 VDC) output
- Protection classIP67
- Operating temperature-30年……+90 °C (-30...+75 °C for FS> 2500 mm)
- Operating pressureup to 350 bar
- Magnetic cursormagnetic cursor
Encoders and rotary transducers
- This sensor class measures angle changes in rotating parts with high precision. The measuring method of the digital encoder is based on periodic tick marks, which are available incrementally as TTL, HTL, or absolutely in the form of bus interfaces (Profibus, SSI, CANopen, Profinet ..). Analog angle sensors, however, convert the angle change that is to be detected into an absolute signal by means of a potentiometer.
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Analog Rotary Sensor WP
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- Output10 0…V, 4…20mA, Potentiometer
- Diameter housingø40 mm, ø60 mm
- Protection classIP67 (housing), IP65 (shaft)
- Shaftsolid shaft
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Incremental Rotary Transducer WPI
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- OutputLine Driver
- Diameter housingø40 mm, ø60 mm
- Protection classIP67 (housing), IP65 (shaft)
- Shaftsolid shaft
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Incremental Encoders B36 and B58
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- Incremental Encoder B36 (ø36)
- Incremental Encoder B58 (ø58)
- OutputTTL, HTL
- SignalsA, /A, B, /B, Z, /Z
- Diameter housingø36, ø58 mm
- Protection classup to IP67
- Shaftsolid shaft, hollow shaft
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Analog Absolute Encoder M36 and M58
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- Magnet-Encoder M36 (ø36)
- Magnet-Encoder M58 (ø58)
- Ouput0...5 V, 0...10 V, 4...20 mA
- Diameter housingø36 mm, ø58 mm
- Protection Classup to IP67
- Shaftsolid shaft, blind hollow shaft
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SSI Absolute Encoder
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- Absolute Encoder SSI (ø58)
- Absolute Encoder SSI-F36 (ø36)
- OutputSSI (Synchronous Serial Interface)
- Diameter housingø58 mm / ø36 up to ø46 mm (F36)
- Protection classup to IP67, optional Ex2/22
- Shaftsolid shaft, hollow shaft, hollow through shaft
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EtherCAT Absolute Encoder
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- OutputEtherCAT (Ethernet for Controller and Automation Technology protocol)
- Diameter housingø58 mm
- Protection classup to IP67
- Shaftsolid shaft, blind hollow shaft
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CANopen Absolute Encoder
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- OutputCANopen (Controller Area Network protocol)
- Diameter housingø58 mm
- Protection classup to IP67
- Shaftsolid shaft, blind hollow shaft
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Profibus Absolute Encoder
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- OutputProfibus (Process Field Bus protocol)
- Diameter housingø58 mm
- Protection classup to IP67
- Shaftsolid shaft, blind hollow shaft
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Profinet Absolute Encoder
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- OutputProfinet (Process Field Network protocol)
- Diameter housingø58 mm
- Protection classup to IP67
- Shaftsolid shaft, blind hollow shaft
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Accessories Draw Wire Mechanics Series SX
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- Ranges1 - 42.5 m
- Linearity max.±0.05 % (with encoder)
- Temperature range-20...+85°C (optional -40°C)
Ultrasonic Sensors
- Ultrasonic sensors measure without contact the distance to the measurement object, regardless of color and material. Ultrasound is a high-frequency oscillation emitted by the sensor, which is reflected on the measurement object and is received back in the form of an echo. From the travel time of the sound, the sensor calculates an analog output signal proportional to the distance. A classic application for ultrasonic sensors is level measurement.
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Ultrasonic Sensors UFP, UPA and UPT
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- UFP up to 3500 mm
- UPA up to 6000 mm
- UPT bis 3500 mm
- Ranges25...250 mm, 30...400 mm, 60...500 mm, 100...800 mm, 80...1600 mm, 200...2000 mm, 300...3500 mm, 350...3500 mm, 600...6000 mm
- Resolution max.0.125 mm
- Linearity max.±0.3 %Protection classIP65, IP67
- Output10 0…V, 4…20mA, switching output
- Housing UFP:cylindric M12x1, M18x1, M30x1
- UPA:cuboid 80 x 80 x 50 mm
- UPT:cuboid 101 x 36 x 25 mm
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Ultrasonic Sensors UFA2
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- UFA2 up to 200 mm
- UFA2 up to 1500 mm
- Measurement range0...150 mm, 20...200 mm, 150...1500 mm
- Resolution max.1 mm
- Linearity max.±0.4 %
- Protection classIP67
- Output10 0…V, 4…20mA, switching output
- HousingUFA2-200: cylindric M12x1
UFA2-1500: cylindric M18x1
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Ultrasonic Sensors UPK
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- Ranges40...300 mm, 60...800 mm, 80...1200 mm
- Resolution max.2 mm
- Linearity max.1 %
- Protection classIP67
- Output10 0…V, 4…20mA, NPN, PNP Housing Cylindrical M18x1
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Ultrasonic Sensors UBA
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- ApplicationUltrasonic fork for edge controlRepeatability0.1 mm
- Linearity±1 %
- Protection classIP67
- Output10 0…V
- HousingFork shaped 30 x 74 x 65 mm, 39 x 92 x 80 mm
Capacitive Sensors
- The capacitive measurement principle was invented more than 40 years ago and has proved its effectiveness ane reliability in innumerable applications. The capacity of a capacitor is influenced by the distance of its electrodes. This correlation can be used for the distance measurement. The sensor heads measure without contact and with an extremely high resolution the distance to conductive targets. The connected electronics display the measurement result directly on a meter (KS series). All electronics provide an analog output signal, proportional to the measured distance, that can be used for further processing. The capacitive probes provide reliable results even under extreme conditions, like in nuclear radiation, close to 0 K, or in high vacuum applications.
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Capacitive Sensor KS
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- Ranges0.05、0.2、0.5、1、2、3、5、10毫米
- Resolution max.dynamic 0.01 %
- Linearity max.± 0.2 %
- Analog output0 - 10 V
- Operating temperature-50...+200 °C
- Protection class max.IP68
Digtial Length Gauges
- Digital length gauges are high-precision sensors and offer accuracy over the entire measuring range. They feature consistently high accuracy over a long period of time as well as high thermal stability. Whether the part measures 10 mm or 100 mm, its actual dimension is always measured with the same high quality. Length gauges are built for a great variety of applications and are used in an industrial environment. They have a wide range of applications in production metrology, in multipoint inspection stations, measuring equipment monitoring, and as position measuring devices.
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Digital Length Gauges GMR
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- Measurement rangeup to 50 mm
- Accuracy max.0.8+L/50 μm
- OutputRS-422
- Protection classup to IP67
Digital Linear Scales
- 数字线性尺度使用探头,运行s along a moulding. They operate with a non-contact magnetic measurement system. The scale should be mounted to a levelled surface, to ensure a high precision measurement.
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Digital Linear Scale DMO
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- Meaurement rangeup to 2000 mm
- Resolution max.10 μm
- Accuracy±20 μm
- Pol pitch5 mm
- OutputTTL or HTL
- Protection classIP65
Hydraulic Sensors
- The stroke measurement of cylinder pistons presents a particular challenge to the sensor technology. WayCon offers a broad product range based on different physical technologies. The solutions shown below, draw wire sensors, magnetostrictive sensors and linear potentiometers are all made for the installation inside of hydraulic cylinders (pressurized area).
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Hydraulic Draw Wire Transducer SX300
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- Range max.15 m
- Linearity max.±0.05 %
- Output digitalCANopen TTL、HTL SSI,现场总线,设备网、乙醚CAT
- Protection classIP65 (optional IP67)
- Operating pressureup to 300 bar
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LVDT LVPH
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- Measurement range25 mm, 50 mm, 100 mm, 150 mm, 200 mm, 500 mm
- Linearity max.±0.1 %
- Output analog10 0…V, 4…20mAProtection classIP67
- Operating pressure350酒吧
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Magnetostrictive Transducer MSB
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- Ranges50 - 4000 mm
- Resolution10 µm
- Linearity max.±0.02 %
- Displacement speed
- Analog output0.1 - 10.1 V, 0.1 - 5.1 V, 4 - 20 mA
- Digital outputstart - stop
- Voltage supply24 VDC ±20 %, (12 VDC for output, 0.1...5.1 VDC) output
- Protection classIP67
- Operating temperatur-30..+90 °C (-30 - 75 °C for FS> 2500 mm)
- Operating pressure350酒吧
- Magnetic cursormagnetic cursor
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Magnetostrictive Transducer MAZ
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- Ranges50 - 4000 mm
- Resolution max.2 µm
- Measured valueposition and speed with CANopen
- Linearity max.±0.02 %
- Displacement speed
- Analog output0 - 10 V, 4 - 20 mA
- Digital outputSSI, CANopen
- Voltage supply24 VDC ±20 %
- Protection classIP67 / max. 350 Bar
- Operating temperatur-30..+75 °C (-30 - 90 °C for SSI output)
- Magnetic cursormagnetic cursor or floating cursor for liquids
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Linear Potentiometer LMI12/LME12
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- typeCylindrical with magnetic drag
- Ranges50 - 1000 mm
- Linearity max.±0.05 %
- Protection classIP67
- Displacement speed≤5 m/s
- Operating temperature-30 °C..+100 °C (LMI12 up to 250 bar, LME12 up to 20 bar)
- MaterialAluminium (LME12) / stainless steel (LMI12)
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Linear Potentiometer LMI12-SE/LMI12-SL
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- typeRectangular with magnetic drag
- Ranges50 - 1000 mm
- Linearity max.±0.35 %
- Protection classIP67
- Displacement speed≤5 m/s
- Operating temperature / pressure-30 °C..+100 °C (LMI12-SL) / 250 bar
- Material / OutputAluminium / 4...20 mA (LMI-SE)
Signal Conditioners
- Signal Conditioners, also known as Signal Converters, are used to convert output signals of sensors into different signals.
For example: the signal conditioner PMX-24 converts the signals of sensors with potentiometric output into analog signals like 0…10 V or 4…20 mA.
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Signal Conditioner PMX-24
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- TypeSignal Conditioner
- Input1...20 kOhm
- Supply9...36 VDC
- Operating temperature-40...+85 °C
- Output4...20 mA, 0...10 V, 0...5 V, ±10 V, ±5 V
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Signal Conditioner IMX
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- TypeSignal Conditioner
- InputTTL, HTL, SSI
- Supply18...30 VDC
- Operating temperature-20...+60 °C
- Output0...20 mA, 4...20 mA, ±10 V
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Amplifier LVA for LVDT
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- TypeAmplifier for LVDT
- Sensitivity200, 500, 1000, 1500, 1900 mV
- Supply18...36 VDC
- Operating temperature-25...+85 °C
- Output4...20 mA, 0...10 V
Display Controls
- If you require a visualization of the measured values provided by a sensor, WayCon offers you the perfect solution for all common sensor signals with our display series PAX and WAY. Due to the modular design of our displays they can easily be equipped with a variety of output cards so that further processing of the data by controller or PC can be done. Functions, such as resetting to zero, setting limits, linearisation, scaling and many more add to the universal applicability of the displays.
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Position Display WAY-AX
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- Channels2
- Input analog-10...+10 V, 0...20 mA, 4...20 mA, Potentiometer
- Input controlHTL, PNP
- Sensor supplyyes up to 250 mA
- Digits8
- Outputs-10...+10 V, 0...20 mA, 4...20 mA, 4 Control, 2 Relay
- InterfacesRS232
- Sensor typesanalog draw wire, encoder
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Position Display WAY-DX and WAY-DXM
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- Channels2
- Input incrementalHTL, TTL
- Input controlPNP
- Sensor supplyyes, up to 250 mA
- Digits8
- Outputs-10...+10 V, 0...20 mA, 4...20 mA, 4 Control, 2 Relay
- InterfacesRS232
- Sensor typesDraw wire, Encoder
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Position Display WAY-SX
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- Channels2
- Input digitalSSI
- Input controlPNP
- Sensor supplyyes, up to 250 mA
- Digits8Outputs-10...+10 V, 0...20 mA, 4...20 mA, 4 Control, 2 Relay
- InterfacesRS232, RS485
- Sensor typesDraw wire sensors, Encoder
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Position Display PAXD
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- Channels1
- Input analogPotentiometer
- Sensor supplyyes, up to 50 mA
- Digits5
- Outputsvarious by optional plug-in cards
- Interfacesvarious by optional plug-in cards
- Sensor typesDraw wire, Linearpotentiometer, Draw wire, LVDT, Magnetic scale, Ultasonic, Eddy current, Rotary sensor
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Position Display PAXDP
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- Channels2
- Input analog10 0…V, 4…20mA, 2 x 0...10 V, 4...20 mA
- Sensor supplyyes, up to 50 mA
- Digits5
- Outputsvarious by optional plug-in cards
- Interfacesvarious by optional plug-in cards
- Sensor typesDraw wire, Ultrasonic, Laser sensor, Rotary sensor
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Position Display PAXI
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- Channels1
- Input digitalTTL, HTL
- Sensor supplyyes, up to 50 mA
- Digits6
- Outputsvarious by optional plug-in cards
- Interfacesvarious by optional plug-in cards
- Sensor TypesDraw wire, Encoder
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Position Display PAXP
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- Channels1
- Input analog10 0…V, 4…20mA, 2 x 0...10 V, 4...20 mA
- Sensor supplyyes, up to 50 mA
- Digits5
- Outputsvarious by optional plug-in cards
- Interfacesvarious by optional plug-in cards
- Sensor typesDraw wire, Laser sensor, Magnetostrictive, Ultrasonic, Rotary sensor
Velocity sensors
- Velocity sensors by WayCon developed for industrial applications measure the distance travelled per time unit. Velocity is measured in a linear manner on an axis, where the sensor emits a signal proportionate to the speed. Like distance sensors, velocity sensors are subject to various physical measurement principles which have their strengths and weaknesses.
Speed sensors particularly serve to monitor travel distances in automated processes, such as for cranes, supplying significant information that is vital to automated warehouse management. Speed sensors are also utilised in numerous other areas, including the paper industry, to measure the differential speed between stock flow and sieve.
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Velocity sensor VX-Series
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- Travel rangeup to 42.5 m
- Velocity measurement max.10 m/s
- Accuracy max.±1 %
- OutputV/m/s
- Protection classIP65 (optional IP67)
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HX-V/VP with speed output
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- Rangesupt o 20.3 m
- Linearity max.±0.1 %
- Output analogTachometer, 0...10 V, 4...20 mA, Potentiometer
- Protection classIP65 (optional IP68)
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Magnetostrictive Transducer MAB-A-C
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- Ranges50 - 2500 mm
- Resolution max.2 µm
- Measured valueposition / speedLinearity max.±0.01 %
- Displacement speed
- Analog output0 - 10 V, 4 - 20 mA
- Digital outputCANopen
- Voltage supply24 VDC ±20 %
- Protection classIP67
- Operating temperature-30..+75 °C
- Magnetic cursorsilding cursor, floating cursor
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Magnetostrictive Transducer MAZ
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- Ranges50 - 2500 mm
- Resolution max.2 µm
- Measured valueposition and speed with CANopen
- Linearity max.±0.02 %
- Displacement speed
- Digital outputCANopen
- Voltage supply24 VDC ±20 %
- Protection classIP67 / max. 350 bar
- Operating temperatur-30年……+75 °C
- Magnetic cursormagnetic cursor or floating cursor for liquids