Industrial Yaskawa New 0.61A 200V AC SERVO MOTOR SGM-A5A3MS11 Made in Japan
QUICK DETAILS
Current: 0.6A
Volatge: 200V
Power : 50W
Rated Torque: 0.159N-m
Max speed: 3000rpm
Encoder: 17bit Absolute encoder
Load Inertia JL kg¡m2¢ 10−4: 0.026
Shaft: straight without key
OTHER SUPERIOR PRODUCTS
| Yasakawa Motor, Driver SG- |
Mitsubishi Motor HC-,HA- |
| Westinghouse Modules 1C-,5X- |
Emerson VE-,KJ- |
| Honeywell TC-,TK- |
GE Modules IC - |
| Fanuc motor A0- |
Yokogawa transmitter EJA- |
Contact person: Anna
E-mail: wisdomlongkeji@163.com
Cellphone: +0086-13534205279
SIMILAR PRODUCTS
| SGDM-10AC-SD1 |
| SGDM-10ADA |
| SGDM-10ADG-P |
| SGDM-10AN-P |
| SGDM-15AC-SD1 |
| SGDM-15ADA |
| SGDM-15ADA.SGDH-15AE |
| SGDM-1AADA |
| SGDM-1EADA |
| SGDM-20AC-SD1 |
| SGDM-20AC-SD2B |
| SGDM-20AC-SD2BM |
| SGDM-20ADA |
| SGDM-20ADA-V |
| SGDM-20ADA-Y47 |
| SGDM-30AC-SD1 |
| SGDM-30ADA |
| SGDM-30ADA-V |
| SGDM-50AC-SD1 |
| SGDM-50ADA |
| SGDM-50ADAY60 |
| SGDM-60AC-SD1 |
| SGDM-60ADA |
| SGDM-75AC-SD1 |
| SGDM-75ADA |
| SGDM-A3ADA |
| SGDM-A3ADA+SGMAH-A3AAAJ36C |
| SGDM-A3ADA+SGMAH-A3ABA21 J |
| SGDM-A3ADA-R |
| SGDM-A3BD |
| SGDM-A3BDA |
| SGDM-A3BDAY278 |
| SGDM-A5ADA |
| SGDM-A5ADA+SGMAH-A5AAA21 |
| SGDM-A5ADA-R |
| SGDM-A5ADA-TE3B |
| SGDM-A5AD-RY90+SGMAH-A5AAA21 |
| SGDM-A5ADY90 |
| SGDM-A5BDA |
| SGDM-A5BDA+SGMAH-A3BAA21 |
| SGDM-A5BDA+SGMAH-A5BAA21 |
As you can imagine, lower mechanical speeds often result in quieter designs, which makes an eight-pole motor well-suited for many residential applications where noise is a factor.
These motors operate at 900 RPM unloaded (between 800 and 875 RPM loaded) and are being used more extensively today in room air conditioning, outdoor heat pump, and residential garage door openers. A less common design is the 12-pole motor. This motor, which runs at 600 RPM unloaded, is used in washing machines and other equipment that require a slow cycle.
Here’s the important point to remember: when replacing a motor, you must select a replacement with the same number of poles as the original. Changing, say, from a four-pole to a six-pole design, the speed mismatch is likely to create significant problems.
Stepper motors are typically used when • low-cost, open-loop positioning required ß no feedback sensors required to monitor position if max torque not exceeded ß noncumulative nature of positioning errors gives good accuracy over long motions • reasonably high torques at low speeds ß not able to handle large inertial loads due to low acceleration requirements • energy efficiency not important
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