MS2N04-C0BTN-AMDG1-NNNNN-NN
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MPN: R911389086
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The MS2N04-C0BTN-AMDG1-NNNNN-NN servomotor from Bosch Rexroth features a low rotor inertia for rapid acceleration. With Hiperface encoder technology, it ensures precise positioning, supports a maximum speed of 6000 rpm. It complies with EN 60034-1 thermal standards.
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Product Description:
The MS2N04-C0BTN-AMDG1-NNNNN-NN is a Bosch Rexroth Indramat servomotor. It belongs to the MS2N series and is considered as one of the top performing and versatile motor in Industrial applications.
It has a very lower moment of inertia that is very useful for the motor to quickly accelerate and decelerate. With this feature this device is also essential for high dynamic applications that requires precise and quicker movements. The rotor inertia is allowed to vary by up to ±10% due to its predefined manufacturing tolerance. The maximum rotational speed which the motor is capable to achieve is 6000 rpm. This MS2N04-C0BTN-AMDG1-NNNNN-NN servomotor also comes with a holding brake that has a size of 1 and is a type of electrically released. The braking mechanism is for holding the motor's position when the power is detached. The insulation class of the device aligns with the international standards of EN 60034-1 and it can bear temperature up to 155°C. The motor's encoder provides feedback using 16 signal periods. It uses Hiperface protocol that combines both analog and digital signals to ensure precise and reliable positioning.
This machine comes with 5 number of pole pairs, that affects the torque and speed characteristics of the motor. The total weight of MS2N04-C0BTN-AMDG1-NNNNN-NN servomotor is 4.4 kilograms. The base operational noise level of the machine is 75 decibel (A), and this can be increased by 3 depending on conditions. The device has the ability to reach very quickly to thermal equilibrium by taking only 16 minutes under constant load. The leakage capacitance is only 1.1 nF between motor windings and the ground that is relevant for assessing the EMC and grounding.
Frequently Asked Questions about MS2N04-C0BTN-AMDG1-NNNNN-NN:
Q: How does the low rotor inertia benefit the performance of the MS2N04-C0BTN-AMDG1-NNNNN-NN?
A: The low rotor inertia enables the motor to accelerate and decelerate quickly. This makes it highly suitable for high-dynamic applications requiring rapid and precise movements.
Q: Why is the Hiperface protocol used in the MS2N04-C0BTN-AMDG1-NNNNN-NN encoder?
A: The Hiperface protocol combines analog and digital signals for enhanced accuracy. This ensures precise and reliable feedback for motor positioning in industrial applications.
Q: What role does the holding brake play in the MS2N04-C0BTN-AMDG1-NNNNN-NN?
A: The electrically-released holding brake locks the motor's position when power is disconnected. This feature adds safety and stability during maintenance or system downtime.
Q: What advantage does the ±10% rotor inertia tolerance offer?
A: The rotor inertia tolerance accommodates minor manufacturing variations without affecting performance. It ensures the motor maintains reliable and dynamic operation across units.
Q: How does the 16-minute thermal time constant impact the MS2N04-C0BTN-AMDG1-NNNNN-NN motor's performance?
A: The motor can reach thermal equilibrium in just 16 minutes under constant load. This ensures consistent performance and prevents overheating during extended operations.
