Length: 50 mm - 1,220 mm
Heidenhain's LF 485 has considerable repeatability, requiring solo-range scanning and temperature quality similar to that of cast iron or steel.
Length: 140 mm - 1,240 mm
Sealed Linear Encoder LF 185 series has an optimum repeatability, high vibration rating, and two mounting approach. It has thermal performance same as that of a steel or cast iron, and single-field scanning. LF 85 series ...
Length: 70 mm - 2,040 mm
Heidenhain LS 400 incremental linear encoders are ideal where installation space is constrained. The encoders have slimline scale housing. With the help of mounting spars or clamping ...
Length: 140 mm - 3,040 mm
The Heidenhain LS-100 is a high precision incremental linear encoder designed for numerically controlled machine tools. It is equipped with a full sized scale housing while featuring resistance to shock ...
Length: 440 mm - 3,040 mm
The LB 382 is an incremental linear encoder with a scale housing that is full-sized. Reclining mounting is available as an option. It is also available in a mirrored version. The measuring standard is ...
Length: 3,240 mm - 72,040 mm
... Linear Encoder features a mounting with large tolerances, a loading with high acceleration and a convenient installation. The Linear encoder measures up to 30m and the 72m version can be upon requesting. ...
Length: 170 mm - 3,040 mm
Heidenhain's LS 688-C Linear Encoder features universal, simplistic specifications.
Length: 70 mm - 4,701 mm
HEIDENHAIN LS 1679 linear encoders feature a DIADUR graduated glass scale for incremental measuring up to 5 µm, with adjustable magnetic reference marks at 50 mm increments. The encoders ...
Length: 70 mm - 270 mm
The LIP 372 and LIP 382 exposed linear encoders are highly accurate incremental linear encoders that measures linear axes position without using additional mechanical transfer elements. ...
Length: 20 mm - 3,040 mm
The Heidenhain LIP 281 is an incremental linear encoder designed for high position stability and optimum accuracy. This encoder is ideal for measuring progression of 1nm (0.001 µm) or ...