MS2N04-C0BNN-AMDG0-NNANN-NN
Wake Industrial LLC is not an authorized distributor of this product.
MPN: R911374465
No Tariffs On US Orders- Straightforward Pricing: No Rush Fees, No Credit Card Fees
The MS2N04-C0BNN-AMDG0-NNANN-NN servo motor by Bosch Rexroth offers high efficiency and rapid response. It offers a torque constant of 1.48 Nm/A and a maximum speed of 3230 rpm which ensures stability.
To contact sales for pricing and lead time:
Payment Methods
Shipping Methods
Our Credentials
Product Description:
The MS2N04-C0BNN-AMDG0-NNANN-NN provided by Bosch Rexroth is a synchronous servomotor suitable for fine adjustment in industrial automation. The standby motor is of higher efficiency and self-cooling type that helps to provide the best thermal condition to ensure reliability and durability.
This MS2N04-C0BNN-AMDG0-NNANN-NN Servo Motor can be characterized by its practicable layout and high efficiency, which is its major distinguishing feature. This frame size C motor is capable of delivering a maximum speed of 3230 rpm and a torque constant of 1.48 Nm/A. This has demonstrated the capacity to do so under a typical operating temperature of 20 °C. The integrated encoder which is crucial for accuracy can operate with 16 signal periods per revolution. This provides detailed feedback for precise movement control to MS2N04-C0BNN-AMDG0-NNANN-NN Servo Motor. Also, it honors the B5/IM3001 construction with PT1000 sensors to control temperature changes and perform stably under different loading conditions. It comprises an incremental encoder with a Hiperface interface along with multiturn capability. This remains crucial in applications that require fine position sensing to achieve position stability typical of automated systems. Further, the motor has a winding resistance of 10.9 ohms and an inductance of 52.4 mH at 20°C to ensure an enhanced electromagnetic performance. The lightweight of the motor which is 3.7 kg allows integration into a variety of systems while still offering efficiency in its size and operation.
The MS2N04-C0BNN-AMDG0-NNANN-NN Servo Motor is equipped with a rotor that has a moment of inertia of 0.00011 kgm2. It facilitates a rapid response to control inputs which is critical for dynamic applications. The motor can handle peak currents up to 9.8A. This means it can effectively drive a circuit that demands high power output momentarily. Standstill current measures 1.78 A at 60 K which proves that during periods of no action, the mechanism is economically efficient.
Frequently Asked Questions about MS2N04-C0BNN-AMDG0-NNANN-NN:
Q: How does the PT1000 sensor improve stability of MS2N04-C0BNN-AMDG0-NNANN-NN?
A: The PT1000 sensor in the MS2N04-C0BNN-AMDG0-NNANN-NN ensures accurate temperature monitoring, providing better stability during varying load conditions. It helps maintain optimal motor performance under different operating temperatures.
Q: How does the lightweight design benefit integration of MS2N04-C0BNN-AMDG0-NNANN-NN?
A: The MS2N04-C0BNN-AMDG0-NNANN-NN’s 3.7 kg weight enables easy integration into compact systems. It maintains high efficiency without compromising on size or operational capability.
Q: What is the significance of the MS2N04-C0BNN-AMDG0-NNANN-NN motor's moment of inertia?
A: The rotor’s moment of inertia, 0.00011 kgm², enables the MS2N04-C0BNN-AMDG0-NNANN-NN to respond rapidly to control inputs. This improves performance in dynamic applications requiring quick adjustments.
Q: What advantage does the Hiperface interface of MS2N04-C0BNN-AMDG0-NNANN-NN provide?
A: The Hiperface interface in the MS2N04-C0BNN-AMDG0-NNANN-NN allows reliable data transfer and precise feedback for position sensing. This ensures accurate, continuous control in automated systems requiring high precision.
Q: Why is the MS2N04-C0BNN-AMDG0-NNANN-NN motor’s winding resistance important?
A: The winding resistance of 10.9 ohms in the MS2N04-C0BNN-AMDG0-NNANN-NN optimizes the electromagnetic performance, reducing heat loss. It contributes to the overall energy efficiency of the motor.
