Frequently Asked Questions about MSK071E-0300-FN-M2-UG1-RNNN
Q: What is the continuous torque output of the MSK071E-0300-FN-M2-UG1-RNNN synchronous servo motor?
A: The MSK071E-0300-FN-M2-UG1-RNNN motor is engineered to generate a continuous torque of 23 Nm at a standstill position, consuming 12.5 A current with a 60K rise in temperature.
Q: What is the purpose of the holding brakes in the MSK071E-0300-FN-M2-UG1-RNNN motor?
A: The MSK071E-0300-FN-M2-UG1-RNNN model features electrically released holding brakes with 23 Nm torque, designed to hold the output shaft when the operation is stopped or the motor is turned off.
Q: What does the 'M2' designation in MSK071E-0300-FN-M2-UG1-RNNN signify?
A: The 'M2' in the MSK071E-0300-FN-M2-UG1-RNNN type code indicates the incorporation of a multi-turn absolute encoder based on the EnDat 2.1 interface, providing precise position feedback.
Q: What is the maximum torque and current consumption of the MSK071E-0300-FN-M2-UG1-RNNN motor under peak load conditions?
A: The MSK071E-0300-FN-M2-UG1-RNNN synchronous servo motor promises a maximum torque of 84 Nm with a current consumption of 56.3 A under peak load conditions.
Q: What is the thermal time constant and maximum speed of the MSK071E-0300-FN-M2-UG1-RNNN motor?
A: The MSK071E-0300-FN-M2-UG1-RNNN synchronous servo motor offers a thermal time constant of 19.8 minutes and is suitable for devices requiring a maximum speed of 4,200 revolutions per minute or 70 revolutions per second.