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1PCS Yaskawa 1.5kW 1500W Industrial 9.3A AC SERVO MOTOR 1500W SGMSS-15A2A2C
Specifications
Current: 9.3A
Volatge: 200V
Power :1500W
Max speed: 3000rpm
Encoder: 17bit Absolute encoder
Load Inertia JL kg¡m2¢ 10−4: 0.026
Shaft: straight without key
OTHER SUPERIOR PRODUCTS
SGMCS-02B3C11 |
SGMCS-02B3C41 |
SGMCS-04B3C11 |
SGMCS-04C3B11+SGDM-01ADA |
SGMCS-05B3C11 |
SGMCS-07B3B11 |
SGMCS-07B3B11+SGDM-02ADA |
SGMCS-07B3C11 |
SGMCS-08DDA-TE12 |
SGMCS-17D3A-MB11 |
SGMCS-17D3C11+SGDH-04AE |
SGMCS-35E3A-MB11 |
SGMCS-35E3A--MB11 |
SGMCS-80M3A11 |
A servo is a mechanical motorized device that can be instructed to move the output shaft attached to a servo wheel or arm to a specified position. Inside the servo box is a DC motor mechanically linked to a position feedback potentiometer, gearbox, electronic feedback control loop circuitry and motor drive electronic circuit
A typical R/C servo looks like a plastic rectangular box with a rotary shaft coming up and out the top of the box and three electrical wires out of the servo side to a plastic 3 pin connector. Attached to the output shaft out the top of the box is a servo wheel or Arm. These wheels or arms are usually a plastic part with holes in it for attaching push / pull rods, ball joints or other mechanical linkage devices to the servo. The three electrical connection wires out of the side are V- (Ground), V+ (Plus voltage) and S Control (Signal). The control S (Signal) wire receives Pulse Width Modulation (PWM) signals sent from an external controller and is converted by the servo on board circuitry to operate the servo.
R/C Servos are controlled by sending pulse width signals (PWM) from an external electronic device that generates the PWM signal values, such as a servo controller, servo driver module or R/C transmitter and receiver. Pulse Width Modulation or PWM signals sent to the servo are translated into position values by electronics inside the servo. When the servo is instructed to move (Received a PWM signal) the on board electronics convert the PWM signal to a electrical resistance value and the DC motor is powered on. As the motor moves and rotates the linked potentiometer also rotates. Electrical resistance value from the moving potentiometer are sent back to the servo electronics until the potentiometer value matches the position value sent by the on-board servo electronics that was converted from the PWM signal. Once the potentiometer value and servo electronic signals match, the motor stops and waits for the next PWM signal input signal for conversion.