2AD160C-B35OL1-BS01-B2V1
Wake Industrial LLC is not an authorized distributor of this product.
MPN: R911264158
No Tariffs On US Orders- Straightforward Pricing: No Rush Fees, No Credit Card Fees
The 2AD160C-B35OL1-BS01-B2V1 is an AC servo motor with a rated torque of 67 Nm and a peak speed of up to 9000 RPM. Manufactured by Bosch Rexroth Indramat, it belongs to the 2AD 3-Phase Induction Motors series and utilizes B35 (flange & foot) mounting. Its features include IP65 protection and blower cooling at L1 voltage.
To contact sales for pricing and lead time:
Payment Methods
Shipping Methods
Our Credentials
Product Description:
The 2AD160C-B35OL1-BS01-B2V1 Induction Motor of Bosch Rexroth Indramat delivers 37 kW at a steady torque of 236 Nm. It functions usually at 1500 rpm and it can withstand speeds up to 6000 rpm. The module has a robust rotor and bearings and ensures efficient and continuous performance in industrial applications.
The 2AD160C-B35OL1-BS01-B2V1 induction motor rotating shaft is balanced with its key in place which means smoother rotation with less vibration and improved reliability. It pulls an effective current of about 90 amperes under standard operating conditions which indicates the amount of electrical load it places on the supply system. It needs about 65 minutes to reach close to its thermal steady state after a change in load which shows how quickly it heats up or cools down. It is fitted with robust bearings that can carry higher radial or axial forces compared to lighter duty versions. It is intended to operate on a supply of around 299 volts which gives a clue about the insulation design, winding configuration and the power system it is meant to connect to. The rotor has a certain resistance to changes in speed that is measured as its inertia which is about 0.229 kilogram square meters.
The position of the power connection where supply cables enter the module is positioned on the upper side which can influence how it is installed. In this 2AD160C-B35OL1-BS01-B2V1 induction motor, the outlet of the electrical hookup is oriented toward the left side inside the junction box. The cooling system uses a fan that drives air along the axis of the module from side B towards side A which actively moves heat away and keeps the windings and iron core from overheating.
Frequently Asked Questions about 2AD160C-B35OL1-BS01-B2V1:
Q: How does the balanced keyed shaft of the 2AD160C-B35OL1-BS01-B2V1 affect machine operation?
A: It reduces vibration and ensures smoother torque transmission, minimizing wear on couplings. This leads to longer service life and more consistent performance under load.
Q: Why is thermal response time important in an induction motor?
A: A longer thermal time constant means the motor heats up and cools down slowly. This allows it to tolerate temporary overloads without immediate risk of overheating.
Q: How does axial blower cooling improve efficiency?
A: The directed airflow keeps windings at a stable temperature, reducing insulation stress. This allows the motor to sustain high loads for longer durations without derating.
Q: What impact does rotor inertia have on the driven system?
A: Higher inertia smooths out speed fluctuations when the load varies. However, it also slows acceleration and deceleration, which can affect dynamic applications like robotics.
Q: How does the 2AD160C-B35OL1-BS01-B2V1 handle rapid speed changes?
A: The rotor inertia and heavy-duty bearings support stable transitions. This makes it reliable for processes involving frequent starts or moderate speed adjustments.
