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A bearingless encoder is a type of rotary encoder that tracks rotation without a physical connection to the rotating shaft, thereby not requiring bearings inside the encoder.
Bearingless encoders rely on attaching the encoder sensor housing and rotating wheel directly to the motor housing to hold the components in place.
When compared to optical encoders, bearingless encoders are typically constructed using magnetic sensing technology, which provides superior resistance to dirt, moisture, and dust.
Additionally, bearingless encoders can be mounted directly to the motor housing without the need for bearings inside the encoder.
This can reduce a potential point of wear and extend the life of the encoder.Bearingless encoders are ideal for rugged, heavy-duty applications where contaminants, extreme temperatures, shock, and vibration are present.
Due to its unique design, the bearingless encoder can withstand conditions that would break down other types of encoders.
The Global Bearingless encoders market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
MAS – The MAS magnetic angle sensor is an especially economical solution for angle measurement and position detection.
Its space-saving, two-part design consisting of magnet and sensor ensures high flexibility in use. The MAS measurement principle is based on the so-called Hall effect and enables non-contact and thus wear-free angle detection.
This prevents faults and minimizes service work. By IO-Link, the sensor is easy to configure and can be monitored proactively via diagnostic data.
The quick and simple installation of the MAS alone reduces costs in everyday work processes. By IO-Link, sensor configuration is particularly efficient.
Settings of existing sensors can also be transmitted to a new device in seconds via IO-Link. Thanks to the non-contact principle of operation, the MAS is wear-free, which significantly reduces maintenance costs.
High installation tolerances also ensure particularly easy sensor handling and smooth operation. This ensures consistently high performance, even under demanding conditions.
IO-Link enables quick and convenient parameterization as well as the use of process and diagnostic data from the sensor.
The zero point can be easily adjusted using IO-Link or a cable. Up to 32 definable angle windows also allow more extensive applications to be run.
