SICK

The SICK ATM90-PTF12X12 is a robust multiturn absolute encoder designed for demanding industrial applications requiring high precision and durability

8639

SICK

The SICK DGS60-C4K02000 is a robust incremental encoder from SICK's DGS60 series, designed for demanding industrial environments requiring high durability and precision.

8140

SICK

The DRS60-EAM01024 encoder features a modular design, allowing for customization to meet specific application requirements. It offers a resolution of 1,024 pulses per revolution (PPR), making it suitable for applications where moderate resolution is sufficient. The encoder supports zero-pulse teaching via a button located under a cap on the rear of the device, simplifying setup and calibration.

3002

SICK

The SICK AG100-4124BC100000 is a high-precision absolute encoder from SICK's AG100 series, designed for demanding industrial applications requiring accurate position feedback.

7969

SICK

The SICK AG100-412400000000 is a high-precision absolute encoder from SICK's AG100 series, designed for demanding industrial applications requiring accurate position feedback.

2514

SICK

The SICK DGS60-C4L01250 is a high-precision incremental rotary encoder from SICK's DGS60 series, designed for demanding industrial applications. With a 60 mm housing and solid shaft design, it offers mechanical durability and easy integration into various systems. The encoder provides incremental output signals (A, B, and reference pulse Z), ensuring accurate rotational feedback. It is sealed to IP67, making it suitable for harsh environments.

7048

SICK

The SICK DRS60-E4K00500 is a high-precision incremental rotary encoder from SICK's DRS60 series, designed for demanding industrial applications. With a 60 mm housing and solid shaft design, it offers mechanical durability and easy integration into various systems. The encoder provides incremental output signals (A, B, and reference pulse Z), ensuring accurate rotational feedback. It features a zero-pulse teach function, allowing for easy alignment of the reference signal.

1210

SICK

The SICK DGS60-G4A01024 is a high-precision incremental rotary encoder from SICK's DGS60 series, designed for demanding industrial applications. With a 60 mm housing and solid shaft design, it offers mechanical durability and easy integration into various systems. The encoder provides incremental output signals (A, B, and reference pulse Z), ensuring accurate rotational feedback. It is sealed to IP67, making it suitable for harsh environments.

3193

SICK

The SICK DGS60-G4A00500 is a high-performance incremental rotary encoder from SICK's DGS60 series, designed for precise position and speed feedback in industrial automation applications. With a 60 mm housing and solid shaft design, it offers mechanical durability and easy integration into various systems. The encoder provides incremental output signals (A, B, and reference pulse Z), ensuring accurate rotational feedback.

6024

SICK

The SICK DGS60-G4B00500 is a robust incremental rotary encoder from SICK's DGS60 series, designed for precise position and speed feedback in industrial applications. With its 60 mm housing and solid shaft design, it offers mechanical durability and easy integration into various systems. The encoder provides incremental output signals (A, B, and reference pulse Z), ensuring accurate rotational feedback.

8184

SICK

The SICK DGS60-G4A05000 is a high-resolution incremental rotary encoder designed for precise position and speed feedback in industrial automation applications. Part of the DGS60 series, it features a robust construction suitable for demanding environments, offering reliable performance in various industrial settings.

2376

SICK

The SICK DGS60-AZZO-S02 is a robust incremental rotary encoder from SICK's DGS60 series, designed for precise position and speed feedback in industrial applications. With its 60 mm housing and solid shaft design, it offers mechanical durability and easy integration into various systems. The encoder provides incremental output signals (A, B, and reference pulse Z), ensuring accurate rotational feedback. It is suitable for environments requiring high reliability and precision.

4286