Product Description
The SF-A4.0230.030-14.015 servomotor is a high-performance motor. It is an integral part of sophisticated systems requiring dynamic movement control and high torque efficiency.
With a locked-rotor torque (Mq) of 22 Nm and a rated speed (nN) of 1500 min⁻¹, the SF-A4.0230.030-14.015 demonstrates its capacity for high-torque operation. These speeds can easily support a variety of industrial processes. Besides, this balance of torque and speed is vital for applications that demand quick responses and rapid movements.
The locked-rotor current (Iq-n200-min⁻¹) at ∆ϑw(30 s)=100K is 18 A. It shows the motor's ability to handle significant current without overheating. The efficient cooling system adds a great deal to it. It manages the motor temperature effectively within an ambient temperature range (ϑamb = 0 to 40°C).
The torque constant (KT) of 0.88 Nm/A provides insight into the motor's responsiveness and efficiency in converting electrical power into mechanical force. This high torque constant means the motor can generate more torque per ampere of current. So, it results in better performance and reduced electrical consumption. Equipped with a moment of inertia (J) of 54 x 10⁻⁴ kgm², including the encoder, the motor ensures precise control over acceleration and deceleration. This feature is critical in applications requiring exact motion sequences and timing.
This model utilizes a flange size of SW 142 mm and a shaft diameter (d x l) of ⊘24 x 50 mm. Such DIN standard components indicate a robust build suitable for heavy-duty operations. The flange design allows for versatile mounting options, and the shaft dimensions ensure compatibility with a wide range of mechanical setups. The SF-A4.0230.030-14.015 motor's mass without a holding brake is 25 kg. It highlights the motor's solid construction and the use of durable materials that can withstand the rigors of industrial environments.
For precision feedback, the motor uses an encoder with a resolution of ±20 angular seconds/8 million increments per revolution. So, it can provide highly accurate positional data necessary for the fine control of movement. The holding brake of the motor has a transferable holding torque (MBr) of 18 Nm at 120°C. It ensures that loads are securely held in position when the motor is de-energized. As a result, it enhances safety and prevents unwanted movement during power-off conditions.
The servo motor is designed for a supply voltage (UBr) of 24 V ± 10%, with a rated current (IBr) of 0.7 A. This versatility in electric input further supports its integration into a wide range of control systems and power supplies.
Wake Industrial Warranty
