MS2N07-C1BNN-CSSL0-NNNNN-NN
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MPN: R914501759
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The MS2N07-C1BNN-CSSL0-NNNNN-NN synchronous servo motor delivers a rated power of 1.67 kW, a rated torque of 4.7 Nm, a rated speed of 3000 rpm, and features natural cooling. Part of the MS2N Synchronous Servo Motors series by Bosch Rexroth Indramat, it operates at 400 V with IP65 protection.
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Product Description:
The MS2N07-C1BNN-CSSL0-NNNNN-NN Servomotor from Bosch is engineered for precision and durability as it can delivers up to 6000 rpm speed and offers 42.2 Nm torque under high thermal load. Its winding design is optimized for operation around 3000 rpm and because of its 1.88 Nm/A torque constant and low leakage capacitance it ensures efficient and stable operation.
The MS2N07-C1BNN-CSSL0-NNNNN-NN servomotor rotating core has a medium range resistance to changes in its velocity. When measured at 20 degrees Celsius its shaft rotates at 114 revolutions per minute for every volt applied. This module's inside coiled wire resists sudden changes in electrical current with an inductive value of 15.2 mH. Its casing physical length corresponds to the C size and its copper windings present 1.8 ohms of electrical resistance at normal room temperature. It can dissipate its own heat naturally usually through its housing and surrounding air. This module's feedback device offers 20 bit resolution for extremely fine precision measurement and communicates via the ACURO ® Link protocol. It can generate torque of up to 46 newton meters at maximum and it uses a regular grade bearing design. Its drive shaft is shaped with a groove for a key and is balanced as if only half of the key is installed.
This MS2N07-C1BNN-CSSL0-NNNNN-NN servomotor can only identify the shaft's position in a single revolution. Its outer surface has a typical protective varnish in deep black color (RAL 9005). It can deliver 3.04 kW of mechanical output when functioning under continuous load conditions. Its electrical interface is a single multi conductor M23 conductor that can be turned for easier routing of the cable. During peak load, its windings are able to handle 29.5 amperes effectively.
Frequently Asked Questions about MS2N07-C1BNN-CSSL0-NNNNN-NN:
Q: How does the MS2N07-C1BNN-CSSL0-NNNNN-NN handle high-speed operation without excessive wear?
A: Its bearing design and rotor balance minimize vibration at high rpm, reducing mechanical stress. This ensures stable performance over long service intervals.
Q: What impact does the torque constant have on motor control precision?
A: A stable torque constant allows accurate torque output per amp, simplifying control tuning. This results in smoother motion and predictable load handling.
Q: How does leakage capacitance affect system integration?
A: Low leakage capacitance helps reduce electromagnetic interference with nearby electronics. This improves signal integrity in sensitive automation or motion control setups.
Q: Why is the inductance value important when pairing a drive with the MS2N07-C1BNN-CSSL0-NNNNN-NN?
A: Inductance affects current ripple and drive switching performance. Matching it to the drive’s capabilities helps maintain efficiency and torque stability.
Q: What are the installation benefits of a rotatable M23 connector?
A: It allows flexible cable routing, reducing stress on wiring in tight spaces. This can extend cable life and simplify maintenance.
