MDD093C-N-040-N5L-110GB0
Wake Industrial LLC is not an authorized distributor of this product.
MPN: R911253696
No Tariffs On US Orders- Straightforward Pricing: No Rush Fees, No Credit Card Fees
-
In-Stock, Ships 3-5 Days
The MDD093C-N-040-N5L-110GB0 is a synchronous motor with a mass of 13.0 kg and a nominal speed of 4000 min⁻¹. Manufactured by Bosch Rexroth Indramat as part of their MDD Synchronous Motors, it delivers a theoretical maximum torque of 28.6 Nm. The motor features windings inductance of 2.8 mH.
To contact sales for pricing and lead time:
Payment Methods
Shipping Methods
Our Credentials
Product Description:
The MDD093C-N-040-N5L-110GB0 AC Servo Motor by Bosch Rexroth Indramat combines reliable torque output, stable performance and a compact form. Its centering diameter measures 110 mm.
This MDD093C-N-040-N5L-110GB0 AC servo motor from the MDD series produces a continuous standstill torque of 19.5 Nm. It supports a theoretical maximum torque output of 60.6 Nm. The winding inductance of the motor is rated at 1.6 mH. This ensures balanced dynamic behavior during operation. The torque constant at 20 °C is 0.43 Nm/A. The servo motor is manufactured with a standard housing. The construction is optimized to support surface cooling and passive convection. It helps in maintaining thermal stability under load. The housing has a black prime coat with color code RAL 9005. This provides protection against wear and corrosion. The servo motor uses F class insulation which offers a maximum permissible winding temperature of 155 °C. This classification ensures long term thermal resistance. The centering diameter of 110 mm enhances mechanical stability. It provides better alignment during shaft coupling and installation. The servo motor is suited for applications requiring high torque output and accurate positioning. The motor can be integrated into automation systems that require consistent high power operation.
The MDD093C-N-040-N5L-110GB0 AC servo motor is equipped with an integrated temperature sensor embedded within the stator windings that enables real time thermal monitoring. This allows the intelligent digital drive to continuously assess motor temperature and implement protective measures such as torque limiting or shutdown to prevent thermal overload and ensure long term operational reliability. The AC servo motor exhibits high overload capability primarily due to the efficient thermal conduction path from the stator windings to the external motor housing.
Frequently Asked Questions about MDD093C-N-040-N5L-110GB0:
Q: How does the MDD093C-N-040-N5L-110GB0 motor manage sudden thermal spikes during extended operation?
A: The MDD093C-N-040-N5L-110GB0 motor integrates a temperature sensor inside its stator windings. It enables real time monitoring and initiates protective actions like shutdown to prevent thermal overload.
Q: Why does the MDD093C-N-040-N5L-110GB0 motor maintain performance consistency under dynamic load?
A: It features a winding inductance of 1.6 mH that controls current rise under load. This ensures dynamic stability during acceleration and deceleration cycles.
Q: How does the housing design of the MDD093C-N-040-N5L-110GB0 help in heat dissipation?
A: The motor uses passive convection and surface cooling through its standard housing. This design promotes thermal stability without requiring active cooling systems.
Q: Does the MDD093C-N-040-N5L-110GB0 motor support accurate shaft alignment during installation?
A: Its centering diameter is 110 mm which ensures precision mounting. This enhances mechanical stability and reduces misalignment during shaft coupling.
Q: Can the MDD093C-N-040-N5L-110GB0 motor withstand high thermal conditions over time?
A: It uses F class insulation that handles winding temperatures up to 155 °C. This rating supports long term durability in high heat industrial environments.
