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Features
Miniature size (38.1mm diameter)
Up to 30,000 PPR
Servo or flange mounting
1 MHz frequency response available
Extended temperature operating range available
Features
Standard Size 58 mounting (58 mm diameter)
Up to 30,000 PPR
36 Kg max. Axial and radial shaft loading
High-temperature option (100° C)
IP65 sealing available
Features
Standard Size 58 mounting (58 mm diameter)
Up to 30,000 PPR
36 Kg max. Axial and radial shaft loading
High temperature option (100° C)
IP65 sealing available
Features
Type: Photoelectric linear displacement measuring device (measures changes in position)
Measuring length: Up to 2.040 mm
Grating period: Two options available: ±20 µm or ±40 µm (determines the smallest detectable movement)
Accuracy: Up to ±3 µm (indicates the encoder's closeness to the actual displacement)
Features
Measuring length: Up to 3.240 mm
Accuracy: Up to ±5 µm within any meter of its measuring length
Grating periods: Available in two options: ±20 µm and ±40 µm
Features
Similar to the L18 series: Shares most functionalities and specifications with the L18 series encoders.
Different housing fixation: Requires distinct mounting methods compared to the L18 series.
Improved thermal behaviour: More stable performance under different temperatures.
Features
Type: Photoelectric modular linear encoder
Measuring length:
Up to 20,000 mm (20 meters)
Can be even longer with special order
Accuracy: Up to ±3 µm
Features
Type: Incremental linear displacement measuring device (measures changes in position)
Measuring length: Up to 3.240 mm
Accuracy: Up to ±3 µm within any meter of its measuring length (accuracy scales with length)
Vibration resistance: More resistant to vibrations than the L18 series encoders
Features
Similar to the L35 series: Shares most functionalities and specifications with the L35 series encoders.
Different mounting parameters: Requires distinct mounting methods compared to the L35 series.
Measuring length: Up to 3.240 mm.
Enhanced vibration resistance: More resistant to vibrations than the L18 series encoders, making it suitable for applications with higher vibration levels.
Features
Type: Incremental encoder
Thermal behaviour: Reproducible, indicating stability under temperature changes
Reading head: Reversible for flexibility in installation
Measuring length: Up to 3.240 mm
Accuracy: Up to ±3 µm within the measuring length
Features
Type: Incremental encoder
Measuring length: 3.240 mm to 30.040 mm
Grating period: 40 µm
Accuracy: Up to ±10 µm within the measuring length
Features
Type: Photoelectric absolute linear encoder (measures absolute position)
Measuring length: Up to 3.240 mm (customizable)
Interface: SSI or BiSS serial interface for digital communication
Accuracy: Up to ±1 µm high accuracy
Optional incremental track: Provides 1Vpp incremental signal for applications requiring both absolute and incremental position data.
Features
Magnetic absolute linear encoder
MK has a measuring length of up to 50.000 mm
Accuracy can reach up to ±35 μm.
Encoder has two versions of serial interface - SSI or BiSS C
Optionally it can have 2 analog sinusoidal signals with phase shift 90°C and amplitude approx. 1Vpp.
Features
Measuring length: Up to 50,000 mm (50 meters)
Accuracy: Up to ±25 micrometres (μm)
Customizable: Other parameters can be modified to meet specific needs
Features
Converts the movement of key machine parts into electrical signals.
Designed for harsh industrial environments and resistant to various physical and environmental factors.
Magnetic band length can reach up to 50 meters.
Allows for either user-defined reference marks or external zero signal actuator.
LED on the reading head confirms reference mark detection.
Compressed air can be used to clean the rail surface, improving accuracy.
Two output signal options:
PCMT-F: Square-wave with built-in interpolation electronics.
PCMT-AV: Sinusoidal signal requiring external interpolation.
Features
Ultra Miniature Size
High reliability with mounting the Opt-ASIC (by components quantities decreased)
Low torque and low inertia
High signal accuracy
Type: 12SA
Pulse: 100-256
Outer Diameter: φ12
Ingress Protection: IP00
Features
Ultra Miniature Size
Shaft Diameter of 2.5mm available
Type: 18M
Pulse: 200-1600
Outer Diameter: φ18
Features
Ultra Miniature Size
A shaft Diameter of 2.5mm is available
Type: 18S
Pulse: 100-1600
Outer Diameter: φ18
Ingress Protection: IP50
Features
Compact size for general purpose
Type: 38H
Pulse: 100-4096
Outer Diameter: φ38
Ingress Protection: IP50
Features
Compact size for general purpose
Type: 38S
Pulse: 100-4096
Outer Diameter: φ38
Ingress Protection: IP50
Features
Compact size for general purpose
Type: 38SG
Pulse: 100-2048
Outer Diameter: φ38
Ingress Protection: IP50
Features
Ultra-miniature size
OD 7.2mm
Height 10.5mm
High Resolution
Up to 400 resolution
Pulse: 100~400
Type: 7s
Outer Diameter: φ7
Features
Compact high-speed type
Type: OEZ
Pulse: 36-1500
Outer Diameter: φ28
Ingress Protection: IP50
Features
Hollow Shaft Small Size
Resolution (Counts/Turn): 1,000∼12,000C/T
Output Phase: A, B, Z, EU, EV, EW Phase
Max Response Frequency: 200kHz
Supply Voltage: DC+5V
Consumption Current: 200mA Max
Output Form: Line Driver
Mounting Tolerance: Radial 0.05mm TIR Max, Axial 0.2mm Max, Shaft Runout 0.1°Max
Starting Torque: 9.8×10-3N⋅m (100gf⋅cm Max)
Protection: IP=40
Operating Temp. Range: -20∼+85°C
Vibration: 49m/s2(5G)
Shock: 980m/s2(100G)
Mass: 0.3kg Max
Features
Wide temperature range
Superior environment resistance
Vibration: 196m/s2{20G} at 10Hz .500Hz, for 2 hours to each of three axes.
Shock: 981m/s2{100G} for 6ms, 3 times to each of 6 axes, 18 times in total
Humidity: 90% RH or above at 60°C
High-speed rotation
High reliability - Extremely long life and high reliability are assured by the structure of mechanical parts and automated coil incorporation.
Absolute position detection
Long-distance transmission - Robustness against noise enables long-distance transmission
Capable of compact incorporation - The use of built-in types of Smartsyn minimizes the housings of motors. Best suited for compact design
Low cost
Multipolarization is possible by increasing the multiplication factor of angle
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