Home Bosch Rexroth Indramat MAC AC Servo Motors MAC063A-0-RS-1-C/095-A-0/-I00500/S105

MAC063A-0-RS-1-C/095-A-0/-I00500/S105

Name: MAC063A-0-RS-1-C/095-A-0/-I00500/S105
Brand: Bosch Rexroth Indramat
Price: 272 USD
Availability: InStock
Rating: 4.5 (25 reviews)

Rated 4.5 (25 total ratings)

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The MAC063A-0-RS-1-C/095-A-0/-I00500/S105 servo motor features a nominal motor speed of 6000 min⁻¹, a continuous torque at standstill of 1.5 Nm, and a mass of 3.9 kilograms. As part of the MAC AC Servo Motors series by Bosch Rexroth Indramat, it includes insulation class F and a rotor moment of inertia of 3.2 x 10⁻⁴ kg·m².

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Product Description:

Bosch Rexroth Indramat manufactured the MAC063A-0-RS-1-C/095-A-0/-I00500/S105. The motor has a nominal motor speed of 6000 min⁻¹. This speed is given in inverse minutes and is the number of full revolutions the rotor makes in a minute. High nominal speed means higher throughput and cycle time in industrial automation systems so that machines can keep in sync with multiple components and optimize production schedules. At a standstill, the motor's rated continuous torque is 1.5 Nm; surface cooling may raise it to 1.7 Nm. This is the maximum rotational force the motor can generate while it is not yet rotating, which is crucial for initiating motion without experiencing overheating restrictions.

To overcome static friction or inertia and to start large loads quickly and reliable torque – a measure of a force’s ability to rotate around an axis – is significant. By improving thermal management, surface cooling boosts torque output, enabling the motor to exert more force in demanding circumstances when effective heat removal is essential to sustaining peak performance over prolonged operation. The rotor’s moment of inertia measures the resistance to changes in rotational speed. For servo applications that need high-speed acceleration and deceleration, this is crucial.

In high-performance automation, the motor’s small moment of inertia allows for accuracy and efficiency by responding fast to control inputs. The motor weighs 3.9 kg, and its mass affects the structural design and system integration. It’s a key factor in determining the motor’s inertia during translational motion. This servo motor is suitable for applications where weight and inertia need to be reduced for better performance and energy efficiency, even if a larger mass comes with more power-handling capabilities. A wide range of industrial applications can benefit from the motor’s performance and easy installation due to the perfect balance between size and power output. The motor’s lifetime is increased by avoiding insulation breakdown from overheating thanks to the insulation classification F, which is rated for a maximum working temperature of 155°C.

Specs

Continuous Current At Standstill (idn)
3.5 A (4.4 A with surface cooling)

Continuous Torque At Standstill (mdn)
1.5 Nm (1.7 Nm with surface cooling)

Insulation Classification
F

Mass (mm)
3.9 kg

Maximum Peak Of Pulse Current (ipeak)
31 A

Nominal Motor Speed
6000 min⁻¹

Protection Category
IP 65

Rotor Moment Of Inertia (jm)
3.2 x 10⁻⁴ kg·m²

Thermal Time Constant (tth)
30 min (15 min with surface cooling)

Torque Constant At 20°c (km)
0.26 Nm/A

Voltage Constant Of Tacho-generator
0.0143 Vs/rad

Winding Inductance (la)
1.5 mH

Winding Resistance At 20°c (ra)
1.6 Ohm

Frequently Asked Questions about MAC063A-0-RS-1-C/095-A-0/-I00500/S105:

Q: What is the nominal motor speed of the MAC063A-0-RS-1-C/095-A-0/-I00500/S105?

A: The MAC063A-0-RS-1-C/095-A-0/-I00500/S105 has a nominal motor speed of 6000 min⁻¹, meaning it operates at a consistent speed of 6000 revolutions per minute under standard operating conditions. This high speed ensures efficient operation for industrial automation tasks.

Q: What is the continuous torque at standstill for this motor?

A: The motor provides a continuous torque of 1.5 Nm at standstill. With surface cooling, this torque can increase to 1.7 Nm. The torque at standstill is crucial for applications requiring high starting torque, such as in robotics or precision machines.

Q: What is the rotor moment of inertia for the MAC063A-0-RS-1-C/095-A-0/-I00500/S105 motor?

A: The rotor moment of inertia for this motor is 3.2 x 10⁻⁴ kg·m². This low moment of inertia allows for precise and responsive movement control, making the motor ideal for high-precision applications where fast acceleration and deceleration are required.

Q: How much does the MAC063A-0-RS-1-C/095-A-0/-I00500/S105 servo motor weigh?

A: The MAC063A-0-RS-1-C/095-A-0/-I00500/S105 weighs 3.9 kilograms. This weight is optimized for compact yet powerful performance, making it suitable for various industrial applications where space and weight constraints exist.

Q: What is the insulation class of the MAC063A-0-RS-1-C/095-A-0/-I00500/S105 motor?

A: The motor has an insulation class of F, which means it is designed to withstand temperatures up to 155°C, providing durability and reliability in demanding environments with high thermal loads.

Internal Product Review

‘‘This AC servo motor delivers a consistent nominal motor speed of 6000 min⁻¹ and a reliable continuous torque of 1.5 Nm at a standstill. The inclusion of insulation class F indicates a durable build suitable for demanding industrial environments. Its rotor moment of inertia of 3.2×10−4kg⋅m2 contributes to precise motion control. The motor's weight of 3.9 kilograms suggests a compact yet powerful unit within the Bosch Rexroth Indramat MAC AC Servo Motors line.’’