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Encoder

Rotary Encoders

Rotary Encoders measure the number of rotations, the rotational angle, and the rotational position. Linear Encoders are also available to measure linear movement.

IntroductionFeatures
PrinciplesClassifications
Engineering DataFurther Information
Explanation of TermsTroubleshooting

Primary Contents

What Is a Rotary Encoder?

Rotary Encoders are sensors that detect position and speed by converting rotational mechanical displacements into electrical signals and processing those signals. Sensors that detect mechanical displacement for straight lines are referred to as Linear Encoders.

Features

1. The output is controlled according to the rotational displacement of the shaft.

Linking to the shaft using a coupling enables direct detection of rotational displacement.

2. Returning to the origin is not required at startup for Absolute Encoders.

With an Absolute Encoder, the rotational angle is output in parallel as an Absolute value. (Refer to Operating Principles of below.)

3. The rotation direction can also be detected.

The rotation direction is determined by the output timing of phases A and B with an Incremental Encoder, and by the code increase or decrease with an Absolute Encoder. (Refer to Operating Principles of below.)

4. Choose the optimal Sensor from a wide lineup of resolutions and output types.

Select the Sensor to match the requirements for precision, cost, and connected circuits.

Operating Principles

ItemFeaturesStructureOutput waveform
Classification
Incremental
Encoders

E6A2-C
E6B2-C
E6C2-C
E6C3-C
E6D-C
E6F-C
E6H-C
This type of encoder outputs a pulse string in response to the amount of rotational displacement of the shaft. A separate counter counts the number of output pulses to determine the amount of rotation based on the count.
To detect the amount of rotation from a certain input shaft position, the count in the counter is reset at the reference position and the number of pulses from that position is added cumulatively by the counter. For this reason, the reference position can be selected as desired, and the count for the amount of rotation can be unlimited.
Another important feature is that a circuit can be added to generate twice or four times the number of pulses for one signal period, for heightened electrical resolution. *
Also, the phase-Z signal, which is generated once a revolution, can be used as the origin within a revolution.

* When high resolution is necessary, a 4-multiplier circuit is generally used.
(4x output is obtained by differentiating the rise and fall waveforms of phase A and phase B, resulting in four times the resolution.)

When a disk with an optical
pattern revolves along with
the shaft, light passing
through two slits is
transmitted or blocked
accordingly. The light is
converted to electrical
currents in the detector
elements, which correspond
to each slit, and is output
as two square waves.
The two slits are positioned
so that the phase difference
between the square wave
outputs is 1/4 pitch.

* Even if resolution changes, the
number of phases does not change.
Absolute
Encoders

E6CP-A
E6C3-A
E6F-A
This type of encoder outputs in parallel the rotation angle as an Absolute value in 2n code.
It therefore has one output for each output code bit, and as the resolution increases, the value of outputs increases. Rotation position detection is accomplished by directly reading the output code.
When the Encoder is incorporated into a machine, the zero position of the input revolution shaft is fixed, and the rotation angle is always output as a digital value with the zero position as the coordinate origin.
Data is never corrupted by noise, and returning to the zero position at startup is not necessary.
Furthermore, even when code reading becomes impossible due to high-speed rotation, correct data can be read when the rotation speed slows, and correct rotation data can even be read when the power is restored after a power failure or other interruption in the power supply.

When a disk with a pattern
rotates, light passing through
the slits is transmitted or
blocked according to the
pattern. The received light is
converted to electrical
currents in the detector
elements, takes the form of
waves, and becomes digital
signals.

Classification

For details, refer to Operating Principles of upper.

Selection Guidelines

[1] Incremental Encoder or Absolute Encoder?

Select a type that is suitable in terms of the cost vs. capacity, returning (or not) to the origin at startup, the maximum speed, and noise tolerance.

[2] How much resolution is needed?

Select the optimal model in view of required precision and cost of machine equipment. We recommend selecting a resolution of from 1/2 to 1/4 of the precision of the machine with which the Encoder will be used.

[3] Dimensions

Also take into consideration the type of shaft that is required (hollow shaft or regular shaft) in relation to mounting space.

[4] Permitted Shaft Loading

When selecting, take into consideration how the mounting method affects the load on the shaft and mechanical life.

[5] Maximum Permissible Speed

Base your selection on the maximum mechanical speed during use.

[6] Maximum Response Frequency

Base your selection on the maximum shaft speed when the device in which the Encoder is used is in operation.
Maximum response frequency = (Revolutions (RPM) /60) x Resolution.
There are deviations in the actual signal periods, so the specifications of the selected model should provide a certain amount of leeway with respect to the above calculated value.

[7] Degree of Protection

Select the model based on how much dust, water, and oil there is in the application environment.

Dust only: IP50

Water or oil also present: IP52(f), IP64(f) (water-resistant, oilresistant)

Oil present: Oil-proof construction

[8] Startup Torque of Shaft

How much torque does the drive have?

[9] Output Circuit Type

Select the circuit type based on the device to be connected, the frequency of the signal, transmission distance, and noise environment.
For long distance transmission, a line-driver output is recommended.

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