Panasonic 50W Incremental Servo Motor 100V /200V 5000 rpm Industrial Servo Motor
Some engineers claim that an energy-efficient motor manifests most of its efficiency improvement at a lower slip speed; that is, as an increase - typically about 1% - in output speed.
Technical Reference
Ultra Compact Servo Motor and Driver MINAS E Series Data Sheet
Legislation and Compliance
RoHS Certificate of Compliance
Statement of conformity
COO (Country of Origin): JP
Product Details
MINAS E Compact Servo MotorsThe MINAS E series is a compact servo motor that can be used on a wide variety of different applications such as machine tool drives, robots and handling systems, packaging systems and material processing machines.Ultra compact design
Exclusively designed for positioning control
User friendly console makes the setup easy
High functionality real time auto-gain tuning enables adjustment free operation
Built-in notch filter and adaptive filter for reduced vibration
Damping control function suppresses vibration during acceleration/deceleration
Motor rated output options of 50W, 200W and 400W
5000 rpm
StandardsIEC60034-1, IEC60034-5, UL1004 CSA22.2 NO.100.
Because the 1% speed gain equates to a 3% horsepower requirement, they reason, the replacement energyefficient motor may have to be 1 HP-size larger than the standard motor. The contention does not fully account for the fact that the power reduction from using an energyefficient motor is greater than the extra power required by the load - hence, there is a net energy savings and the motor will run cooler, potentially extending insulation life. Design NEMA MG 1 (1987), Section MG 1-1.16, defines "design," which defines the torque and current characteristics of the motor. Letters are assigned the defined categories. Most motors are Design B,. although the standard also defines Designs A, C, and D. Common headings on nameplates include "Des," "NEMA Design," and "Design." Some motors may not conform to any torque-current characteristics defined in MG 1. The motor manufacturer may assign them a letter that is not a defined industry standard. It is important to check the design letter when replacing a motor in an existing application. Another note on Design B: Design B constrains the motor designer to limit inrush current to established standards. This insures that the user's motor-starting devices are suitable. A Design A motor has torque characteristics similar to those of the Design B motor, but there is no limit on starting inrush current. This may cause starter sizing problems. You should be aware of th