for encoders
Encoders, bearingless encoders and motor feedback systems
Rotative speed measurement and position detection. Optical or magnetic. Incremental or absoluteThis view contains new products
Encoders found: 171
Sendix 7078
Explosion protection and field bus communication: Encoders with ATEX / IECEx approval.



- Pressure-resistant enclosure
- Particularly resistant
- Latest encoder profile
- Dimension
Ø 70 mm
- Resolution
-
16 bits singleturn
- Shaft type
-
Max 14 mm hollow shaft, blind hole
Sendix 5873 Motor-Line
The standard for direct drives. Encoder with conical shaft.






- High precision
- With incremental track SinCos
- Resistant
- Dimension
Ø 58 mm
- Resolution
-
2.048 ppr incremental
21 bits singleturn
Sendix KIS50
The economical sensor solution.



- Economical
- Ideal for simple machines
- Robust bearing structure
- Dimension
Ø 58 mm
- Resolution
-
5.000 ppr incremental
- Shaft type
-
Max 12 mm shaft, with flat surface
Sendix KIH50
The economical sensor solution.



- Economical
- Ideal for simple machines
- Robust bearing structure
- Dimension
Ø 50 mm
- Resolution
-
5.000 ppr incremental
- Shaft type
-
Max 15 mm hollow shaft, through
AX
For shaft diameters up to 45 mm: Absolute encoders multiturn








- Resistant
- Robust bearing structure
- Reliable
- Resolution
-
17 bits singleturn
12 bits multiturn
- Shaft type
-
Max 45 mm hollow shaft, through
Sendix 5834 Motor-Line
Ideal for drive technology. Encoder with conical shaft.

- Very high signal quality
- Highly interpolatable
- Robust
- Dimension
Ø 58 mm
- Resolution
-
2.048 ppr incremental
Sendix S36
Motor feedback systems for servo motors: high-resolution and compact

- High precision
- Compact design
- Robust design
- Dimension
Ø 36 mm
- Resolution
-
2.048 ppr incremental
24 bits singleturn
12 bits multiturn
Sendix M3688
Energy Harvesting Technology: Electronic multiturn encoders.


- Resistant
- Wear-free
- Magnetic – robust
- Dimension
Ø 36 mm
- Resolution
-
14 bits singleturn
29 bits multiturn
- Shaft type
-
Max 10 mm hollow shaft, blind hole
Max 1/4" hollow shaft, blind hole
Sendix M5868
Energy Harvesting Technology: Electronic multiturn encoders.


- With 58 mm flange
- Particularly resistant
- Magnetic – robust
- Dimension
Ø 58 mm
- Resolution
-
14 bits singleturn
29 bits multiturn
- Shaft type
-
Max 10 mm shaft, with flat surface
RIM200
High flexibility and performance with cost savings.


- High flexibility
- Highest precision
- Simple commissioning
- Resistant and insensitive
- Resolution
-
999.999 ppr incremental
- Shaft type
-
Max 180 mm hollow shaft, through
Max 1 1/8" hollow shaft, through
RIM500
High flexibility and performance with cost savings.


- High flexibility
- Highest precision
- Simple commissioning
- Resistant and insensitive
- Resolution
-
999.999 ppr incremental
- Shaft type
-
Max 180 mm hollow shaft, through
Max 1 1/8" hollow shaft, through
RIM2000
Maximum flexibility and higher performance thanks to programmability.


- Programmable
- Highest precision
- Simple commissioning
- Resistant and insensitive
- Resolution
-
999.999 ppr incremental
- Shaft type
-
Max 180 mm hollow shaft, through
Max 1 1/8" hollow shaft, through
RIM5000
Maximum flexibility and higher performance thanks to programmability.


- Programmable
- Highest precision
- Simple commissioning
- Resistant and insensitive
- Resolution
-
999.999 ppr incremental
- Shaft type
-
Max 180 mm hollow shaft, through
Max 1 1/8" hollow shaft, through
Sendix S5858FS2
Safe Sendix Encoders with FSoE interface and cyber security




- Redundant sensors
- High precision
Industry 4.0 / IIoT ready
- Dimension
Ø 58 mm
- Resolution
-
24 bits singleturn
- Shaft type
-
Max 12 mm shaft, with flat surface
Max 12 mm shaft, with feather key
Max 3/8" shaft, with flat surface
Max 3/8" shaft, with feather key
Sendix S5878FS2
Safe Sendix Encoders with FSoE interface and cyber security




- Redundant sensors
- High precision
Industry 4.0 / IIoT ready
- Dimension
Ø 58 mm
- Resolution
-
24 bits singleturn
- Shaft type
-
Max 1/2" hollow shaft, blind hole
Max 15 mm hollow shaft, blind hole