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MKD071B-061-KG1-KN | Bosch Digital AC Synchronous Servo Motor
- Regular price
- $3,539.00
- Sale price
- $3,539.00
- Regular price
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Product Description P/N: MKD071B-061-KG1-KN
Description
Technical Specifications
|
Part # |
MKD071B-061-KG1-KN |
|
Category |
Servo Products |
|
Subcategory |
Servo Motor MKD |
|
Stack Size |
71 |
|
Feedback Type |
Resolver Feedback with Integrated Multiturn Absolute Encoder |
|
Shaft Type |
Plain Shaft |
Information About MKD071B-061-KG1-KN
The MKD071B-061-KG1-KN is a digital AC synchronous servo motor categorized under Servo Products, specifically within the MKD Series, designed for precise and reliable motion control in industrial automation systems. This motor is engineered to meet the demands of applications that require consistent torque, accurate speed regulation, and robust performance in dynamic environments.
The MKD071B-061-KG1-KN has a stack size of 071, making it well-suited for applications requiring a medium frame size. The stack size refers to the length of the magnetic stack within the motor, directly influencing its torque capabilities. The 071 stack size provides a balanced configuration that allows the motor to deliver adequate torque while maintaining a compact form factor, making it ideal for installations where space is limited but power is still required.
A key feature of this motor is its resolver feedback system, which is paired with an integrated multiturn absolute encoder. The resolver feedback provides precise and reliable motor position data, ensuring that the control system can track the motor’s movements with high accuracy. Resolver systems are known for their durability and reliability in harsh environments, as they are less susceptible to noise and environmental interference compared to other types of encoders. This makes the MKD071B-061-KG1-KN a suitable choice for industrial settings where electrical noise, temperature fluctuations, or vibrations are common.
The integrated multiturn absolute encoder further enhances the motor’s capabilities by allowing it to track its position over multiple turns of the motor shaft, even when power is lost. This eliminates the need for homing procedures after power interruptions, reducing system downtime and improving overall efficiency. The multiturn absolute encoder retains precise position data, ensuring that the motor resumes operation at the correct position when powered back on. This feature is particularly beneficial in applications that require accurate positioning over long distances or multiple rotations, such as robotic arms, CNC machines, and automated material handling systems.
The MKD071B-061-KG1-KN is equipped with a plain shaft, which offers a straightforward mechanical interface for integration with various mechanical components, such as couplings or gearboxes. The plain shaft configuration is designed for easy installation and ensures secure torque transmission between the motor and the driven load. This type of shaft is commonly used in industrial automation due to its simplicity and reliability in transmitting mechanical power without additional components such as keyways or splines. The plain shaft design also reduces potential points of failure, contributing to the overall durability and longevity of the motor.
Description
Technical Specifications
|
Part # |
MKD071B-061-KG1-KN |
|
Category |
Servo Products |
|
Subcategory |
Servo Motor MKD |
|
Stack Size |
71 |
|
Feedback Type |
Resolver Feedback with Integrated Multiturn Absolute Encoder |
|
Shaft Type |
Plain Shaft |
Information About MKD071B-061-KG1-KN
The MKD071B-061-KG1-KN is a digital AC synchronous servo motor categorized under Servo Products, specifically within the MKD Series, designed for precise and reliable motion control in industrial automation systems. This motor is engineered to meet the demands of applications that require consistent torque, accurate speed regulation, and robust performance in dynamic environments.
The MKD071B-061-KG1-KN has a stack size of 071, making it well-suited for applications requiring a medium frame size. The stack size refers to the length of the magnetic stack within the motor, directly influencing its torque capabilities. The 071 stack size provides a balanced configuration that allows the motor to deliver adequate torque while maintaining a compact form factor, making it ideal for installations where space is limited but power is still required.
A key feature of this motor is its resolver feedback system, which is paired with an integrated multiturn absolute encoder. The resolver feedback provides precise and reliable motor position data, ensuring that the control system can track the motor’s movements with high accuracy. Resolver systems are known for their durability and reliability in harsh environments, as they are less susceptible to noise and environmental interference compared to other types of encoders. This makes the MKD071B-061-KG1-KN a suitable choice for industrial settings where electrical noise, temperature fluctuations, or vibrations are common.
The integrated multiturn absolute encoder further enhances the motor’s capabilities by allowing it to track its position over multiple turns of the motor shaft, even when power is lost. This eliminates the need for homing procedures after power interruptions, reducing system downtime and improving overall efficiency. The multiturn absolute encoder retains precise position data, ensuring that the motor resumes operation at the correct position when powered back on. This feature is particularly beneficial in applications that require accurate positioning over long distances or multiple rotations, such as robotic arms, CNC machines, and automated material handling systems.
The MKD071B-061-KG1-KN is equipped with a plain shaft, which offers a straightforward mechanical interface for integration with various mechanical components, such as couplings or gearboxes. The plain shaft configuration is designed for easy installation and ensures secure torque transmission between the motor and the driven load. This type of shaft is commonly used in industrial automation due to its simplicity and reliability in transmitting mechanical power without additional components such as keyways or splines. The plain shaft design also reduces potential points of failure, contributing to the overall durability and longevity of the motor.