Incremental rotary encoders
Rotary encoder E50-02A-30
n=30, NPN outputs (A, B, C), Us=5Vdc, 100mA, Ø50x45mm, axis Ø6
The rotary encoder E50-02A-30 has three outputs A, B and C and is supplied with a 5Vdc voltage. The encoder produces overlapping series of 30 impulses per revolution at the outputs A and B, and one impulse ...
Rotary encoder E50-02A-60
n=60, NPN outputs (A, B, C), Us=5Vdc, 100mA, Ø50x45mm, axis Ø6
The rotary encoder E50-02A-60 has three outputs A, B and C and is supplied with a 5Vdc voltage. The encoder produces overlapping series of 60 impulses per revolution at the outputs A and B, and one impulse ...
Rotary encoder E50-02A-90
n=90, NPN outputs (A, B, C), Us=5Vdc, 100mA, Ø50x45mm, axis Ø6
The rotary encoder E50-02A-90 has three outputs A, B and C and is supplied with a 5Vdc voltage. The encoder produces overlapping series of 90 impulses per revolution at the outputs A and B, and one impulse ...
Rotary encoder E50-02B-30
n=30, NPN outputs (A, B, C), Us=8-30Vdc, 100mA, Ø50x45mm, axis Ø6
The rotary encoder E50-02B-30 has three outputs A, B and C and is supplied with a 8...30Vdc voltage. The encoder produces overlapping series of 30 impulses per revolution at the outputs A and B, and one impulse ...
Rotary encoder E50-02B-60
n=60, NPN outputs (A, B, C), Us=8-30Vdc, 100mA, Ø50x45mm, axis Ø6
The rotary encoder E50-02B-60 has three outputs A, B and C and is supplied with a 8...30Vdc voltage. The encoder produces overlapping series of 60 impulses per revolution at the outputs A and B, and one impulse ...
Rotary encoder E50-02B-90
n=90, NPN outputs (A, B, C), Us=8-30Vdc, 100mA, Ø50x45mm, axis Ø6
The rotary encoder E50-02B-90 has three outputs A, B and C and is supplied with a 8...30Vdc voltage. The encoder produces overlapping series of 90 impulses per revolution at the outputs A and B, and one impulse ...
Encoders series E50-02 / Photoelectric incremental rotary encoders /
The encoders or the so-called photoelectric incremental rotary transducers are element of the electronic automation equipments, which serve for the conversion of angular displacements into electrical impulses. The encoders are used in electrical circuits for direct current. They have two or more outputs that generate successively overlapping electrical impulses. Encoder-made impulses enter in the inputs of controllers, where are converted and visualized in physical values.