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Features
- 5mm Opto-ASIC encoder with a low profile (50.8mm)
- Imperial bore sizes range from 0.625” to 1.125”
- Metric bore sizes ranging from 6 mm to 28 mm
- Single replacement solution for 50.8mm to 88.9mm encoders
- Resolutions to 10,000 PPR, frequencies to 1 MHz
- Versatile flexible mounting options
- RoHS compliant
- Corrosion-Resistant Option
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Features
- 58 mm package available in thru-bore or hollow bore
- Resolutions from 1 to 65,536 PPR
- 6 different output types to choose from
- 32 different waveforms available
- Standard and Metric Bore Sizes up to 5/8” and 15 mm
- Several Flexible Mounting Options
- IP67 Sealing Available
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Features
- Miniature size (38.1mm diameter)
- Up to 30,000 PPR
- Flex mounting & large hollow bore option (Up to 14mm)
- High-temperature option
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Features
- Size 25 / 63.5mm Diameter (Hollow Shaft)
- Up to 12 Pole Commutation Available
- Thru Bore and Blind Bore Options
- Simple, Innovative Flexible Mounting System
- Incorporates Opto-ASIC Technology
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Features
- Industry-standard Size 20 (50.8mm diameter) stainless steel package
- Flange and servo mounting
- Up to 30,000 PPR
- 80 lb maximum axial and radial shaft loading
- IP67 sealing available
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Features
- Industry-standard Size 58 (58mm diameter) stainless steel package
- Up to 30,000 PPR
- 36 Kg max. Axial and radial shaft loading
- 100° C operating temperature available
- IP65 sealing available
- Manufactured in Food Grade Stainless Steel
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Features
- C-Face thru-bore encoder with stainless steel housing
- Fits NEMA Size 56C thru 184C motor faces (4.5" AK)
- Slim profile—only 25.4mm deep
- Incorporates Opto-ASIC technology
- Resolutions to 4096 PPR
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Features
- Number of output pulses per revolution 100-108000 ppr
- Maximum shaft speed 10000 rpm
- Permissible motion of shaft - axial: ± 0.5 mm- radial: ± 0.05 mm
- Accuracy (T1-period lines on disc in arc. sec) ± 0.1T1 arc. sec
- Starting torque at 20°C ≤ 0.025 Nm
- Rotor moment of inertia < 1.5x10-4 kgm2
- Protection (housing) (IEC 529) IP64
- Protection (shaft side) (IEC 529) IP64
- Maximum weight without cable 0.3 kg
- Operating temperature -10...+70°C
- Storage temperature -30...+80°C
- Maximum humidity (non-condensing) 98%
- Permissible vibration (55 to 2000 Hz) ≤ 100 m/s²
- Permissible shock (5 ms) ≤ 1000 m/s²
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Features
- Low-cost linear solution
- Imperial and Metric Options
- IP65 sealing available
- Up to 1.27M or 50” Full Stroke Length
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Features
- Standard Size 36mm package (1.42")
- Durable magnetic technology
- Multiturn absolute encoder (12-bit/39-bit)
- SSI and CANopen communications
- Proven new turns counting technology — no gears or batteries
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Features
- Multi-Turn Absolute Encoder (14 Bit/39 Bit)
- SSI and CANopen Communications
- 58 mm Diameter
- Durable Magnetic Technology
- Proven Turns Counting Technology – No Gears or Batteries
- Retains Absolute Position After a Power Outage
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Features
- Encoder and measuring wheel solution integrated into one compact unit
- Spring-loaded torsion arm makes wheel pressure adjustments a snap
- Easily installed in a vertical, horizontal or upside-down orientation
- Operates over a variety of surfaces at speeds up to 3000 feet per minute
- The integrated module simplifies your system design, reducing cost
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Features
- Integrated heavy-duty encoder and measuring wheel in one
- Spring-loaded torsion arm for quick wheel pressure adjustments
- Easily installed in a vertical, horizontal or upside-down orientation
- Operates over a variety of surfaces at speeds up to 3000 feet per minute
- Integrated module simplifies system design, reducing cost
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Features
- Scalable 14-bit analog input for 0 ... 10 V or 0/4 ... 20 mA
- Power supply 24 VDC
- Miniature norm panel housing
- 5 digits LED display with 8 mm height
- Display range -19999 ... 99999, adjustable zero and full-scale value
- Latch input to freeze the display, minimum/maximum record memory
- Easy to set up with only two front keys and menu support
- Delivery includes adapter frame for 50 x 25 mm cut out and label set with dimensions
- Front dimension 48 x 24 x 59 mm (1.89 x 0.945 x 2.322")
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Features
- 2 universal 16-bit analogue inputs for ±10 V or 0/4 … 20 mA
- 3 control inputs for HTL / PNP signals
- Power supply 18 ... 30 VDC
- 24 V auxiliary output for encoder supply
- High accuracy reference output 10 V for potentiometers > 1 kOhm
- 3.78 x 1.89-inch norm panel housing and IP65 protection
- Bright and high-contrast display with event-dependent color variations
- Emulation of a 7-segment display inclusively icons and units
- Intuitive and easy parameterization by plain text and touchscreen
- Operating modes for visualization of INPUT 1, INPUT 2 or combinations of IN1 + IN2, IN1 - IN2, IN1 x IN2, IN1: IN2
- Numerous features, e. g. tara, filters, averaging
- Linearization with 24 control points
Options
- Option AC: Power supply 115 ... 230 VAC
- Option AO: 16-bit analog output, 4 control outputs, serial RS232 interface
- Option AR: 16-bit analog output, 4 control outputs, serial RS485 interface
- Option CO: 4 control outputs, serial RS232 interface
- Option CR: 4 control outputs, serial RS485 interface
- Option RL: 2 relay outputs
- Option IO: IO-Link Device V1.1
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Features
- 4 pulse inputs with format A, /A, B, /B [RS422]
- 4 scalable 12-bit analog inputs for ±10 V or 0/4 ... 20 mA
- 8 control inputs for PNP signals [10 ... 30 VDC]
- 4 scalable 12-bit analog outputs for ±10 V or 0/4 ... 20 mA
- Short loop time (depending on application)
- Power supply 18 ... 35 VDC
- Snap-on housing for top-hat rail (according to EN 60715)
- Setup via Windows operator software (free of charge)
- OnBoard interfaces: RS232 and CANopen
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Features
- High level of external safety (Recognition of electrical or mechanical errors in the machinery/sensor systems/wirings etc.)
- High level of internal safety (detection of internal errors and failures of the device components)
- 2 Pulse inputs with format A, B, 90° [HTL] or A, /A, B, /B [RS422]
- 4 control inputs for PNP / NPN / Namur signals [10 ... 30 VDC]
- 6 logical inputs for PNP signals [10 ... 30 VDC]
- Input frequency up to 500 kHz
- 4 fast transistor outputs with push-pull characteristics, short-circuit-proof [5 ... 30 VDC]
- 4 forced-guided redundant output relays with potential free change-over contact
- Serial interface RS232 and RS485
- Power supply 24 VAC and 17 ... 40 VDC
- Compact norm panel housing
- 6 digits LED display with 15 mm height
- Display range -199999 ... 999999
- Setup by keys or PC via serial RS232 Interface
- Dimension B x H x T = 110 x 48 x 140 mm (4,33 x 1,89 x 5,51")
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Features
- 2 pulse inputs with format A, B, 90° [HTL] or A, /A, B, /B [RS422]
- 4 control inputs for HTL / PNP / NPN / Namur signals [10 ... 30 VDC]
- Input frequency up to 300 kHz
- 4 fast transistor outputs, push-pull, short-circuit-proof [5 … 30 VDC]
- 1 scalable 14-bit analog output (±10 V or 0/4 … 20 mA)
- Loop time approx. 250 µs
- Defining incremental dimensions via keyboard
- Power supply 24 VAC and 17 … 40 VDC
- Compact norm panel housing (according to EN 60715)
- Top hat rail mounting by using SM300 support brackets (option)
- Setup via keys or via PC by serial RS232 interface
- PROFIBUS connection via mMotrona gateway PB251
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Features
- 2 pulse inputs with format A, B, 90° [HTL] or A, /A, B, /B [RS422]
- 4 control inputs for HTL / PNP / NPN / Namur signals [10 ... 30 VDC]
- Input frequency up to 300 kHz
- 4 fast transistor outputs, push-pull, short-circuit-proof [5 … 30 VDC]
- 1 scalable 14-bit analog output (±10 V or 0/4 … 20 mA)
- Loop time approx. 250 µs
- Defining incremental dimensions via keyboard or BCD decade switch on the front
- Power supply 24 VAC and 17 … 40 VDC
- Compact norm panel housing (according to EN 60715)
- Top hat rail mounting by using SM600 support brackets (option)
- Setup via keys or via PC by serial RS232 interface
- PROFIBUS connection via Motrona gateway PB251
- Dimension 96 x 96 x 140 mm (3,78 x 3,78 x 5,51")
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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
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Features
- Wide temperature range
- Superior environment resistance
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- 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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Features
- Wide temperature range
- Superior environment resistance
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- 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
-
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 the angle.
-
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 the angle.
-
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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