Product Description

A locked-rotor torque of 8.1 Nm can be obtained by the SF-A3.0093.030-00.000 motor, which additionally operates at a rated speed of 3000 min^-1 throughout its course of operation. An electrical current of 6.0 Amperes is flowing across the rotor while it is locked at the M0 position. In addition to having an encoder that is incorporated, the motor has a torque constant of 1.35 Nm/A, leading to in a moment of inertia of 16 x 10^-4 kgm2. There are 116 millimeters in the length of the flange, and the shaft is 19 mm by 40 mm. The highest length that can be achieved without the use of a holding brake is 287 mm, and the maximum weight that can be achieved without the holding brake is 12 kg. With a resolution of 8 million increments per rotation and an accuracy of 20 angular seconds, the encoder type may be either single-turn (STG) or multi-turn (MTG), depending on what is preferred by the user.

At a temperature of 120 degrees Celsius, the holding brake of this motor provides a passed holding torque of 10.0 natural meters. Additionally, it operates at a supply voltage of 24 V, with a tolerance of ?10% & a residual ripple of 5% after operation. A moment of inertia of 1.06 x 10^-4 kgm2 and a mass of 0.6 kg are the characteristics of the holding brake, which has a rated current of 0.66 A. Radiation & natural convection are used to cool the engine, which results in efficient thermal management.

The SF-A3.0093.030-00.000 motor integrates thermistors inside the windings for the purpose of providing thermal protection. This allows the motor to function securely at temperatures ranging from -5 degrees Celsius to +155 degrees Celsius. This particular motor is intended to provide precise control, dependable performance, and durability in a wide range of industrial applications. Additionally, it features enhanced thermal protection to guarantee operating stability in settings that are particularly difficult.