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MOTCO 1 HP 415 V 1500 RPM AC Synchronous Motor, 1009-4

By MOTCO

₹14,159  

An MOTCO 1 HP 415 V 1500 rpm AC Synchronous Motor, 1009-4 is a type of electric motor in which the rotation of the shaft is synchronized with the frequency of the AC power supply. Here are the key features and characteristics of AC synchronous motors:
Operating Principle: AC synchronous motors operate based on the interaction between the magnetic field generated by the stator windings and the magnetic field produced by the rotor. Unlike induction motors, the rotor of a synchronous motor rotates at the same speed as the rotating magnetic field in the stator.
Excitation: AC synchronous motors require a separate DC power source to supply excitation to the rotor windings. This excitation creates a magnetic field in the rotor that locks in synchronism with the rotating magnetic field of the stator.
Starting Methods: AC synchronous motors can be started using various methods, including:
Direct-on-line (DOL) starting.
Using a pony motor to bring the motor to synchronous speed before connecting it to the power supply.
Starting with reduced voltage to limit the starting current.
Applications: AC synchronous motors are used in applications where precise speed control is required, such as in industrial processes, power generation (synchronous generators), synchronous condensers for power factor correction, and synchronous motors for power factor correction and load balancing.
Advantages: AC synchronous motors offer high efficiency, precise speed control, and power factor correction capabilities. They are also capable of providing constant speed regardless of load variations when operated at their synchronous speed.
Disadvantages: AC synchronous motors are generally more expensive and complex than induction motors. They also require additional equipment for excitation and may require periodic maintenance of the excitation system.
In summary, AC synchronous motors are well-suited for applications requiring precise speed control and power factor correction. They offer high efficiency and reliability, making them suitable for various industrial and commercial applications.

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MOTCO 1 HP 230 V 3000 RPM DC Series Motor, 1002-2S

By MOTCO

₹13,125  

A MOTCO 1 HP 230 V 3000 rpm DC Series Motor, 1002-2S is a type of direct current (DC) electric motor that operates on the principle of electromagnetic induction. It is called a "shunt" motor because the field winding (shunt winding) is connected in parallel with the armature winding.
Here are some key characteristics and features of a DC shunt motor: Field Windings: The field winding, also known as the shunt winding, is connected in parallel with the armature winding. This arrangement allows the field current to remain relatively constant regardless of changes in armature current or speed. Operating Principle: Like all DC motors, the DC shunt motor operates based on the interaction between magnetic fields. When current flows through the field winding, it generates a magnetic field. When current flows through the armature winding, it interacts with the magnetic field, creating a force that causes the motor to rotate. Speed Regulation: DC shunt motors typically have good speed regulation characteristics, meaning they can maintain relatively constant speed under varying loads. This is because the field current remains relatively constant, providing consistent magnetic field strength. Speed Control: The speed of a DC shunt motor can be controlled by varying the armature voltage or the field current. By adjusting either of these parameters, the motor's speed can be increased or decreased as needed. Applications: DC shunt motors are commonly used in applications where speed regulation is important, such as in machine tools, conveyor belts, and elevators. They are also used in applications where constant speed is desired, such as in centrifugal pumps and fans.

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MOTCO 1 HP 415 V 3000 RPM AC Synchronous Motor, 1009-2

By MOTCO

₹14,159  

An MOTCO 1 HP 415 V 3000 rpm AC Synchronous Motor, 1009-2 is a type of electric motor in which the rotation of the shaft is synchronized with the frequency of the AC power supply. Here are the key features and characteristics of AC synchronous motors:
Operating Principle: AC synchronous motors operate based on the interaction between the magnetic field generated by the stator windings and the magnetic field produced by the rotor. Unlike induction motors, the rotor of a synchronous motor rotates at the same speed as the rotating magnetic field in the stator.
Excitation: AC synchronous motors require a separate DC power source to supply excitation to the rotor windings. This excitation creates a magnetic field in the rotor that locks in synchronism with the rotating magnetic field of the stator.
Starting Methods: AC synchronous motors can be started using various methods, including:
Direct-on-line (DOL) starting.
Using a pony motor to bring the motor to synchronous speed before connecting it to the power supply.
Starting with reduced voltage to limit the starting current.
Applications: AC synchronous motors are used in applications where precise speed control is required, such as in industrial processes, power generation (synchronous generators), synchronous condensers for power factor correction, and synchronous motors for power factor correction and load balancing.
Advantages: AC synchronous motors offer high efficiency, precise speed control, and power factor correction capabilities. They are also capable of providing constant speed regardless of load variations when operated at their synchronous speed.
Disadvantages: AC synchronous motors are generally more expensive and complex than induction motors. They also require additional equipment for excitation and may require periodic maintenance of the excitation system.
In summary, AC synchronous motors are well-suited for applications requiring precise speed control and power factor correction. They offer high efficiency and reliability, making them suitable for various industrial and commercial applications.

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MOTCO 1 HP 230 V 1440 RPM AC SCIM Motor, 1005-4MS

By MOTCO

₹10,855  

An MOTCO 1 HP 230 V 1440 rpm AC SCIM Motor, 1005-4MS is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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MOTCO 1 HP 230 V 1500 RPM DC Compound Motor, 1003-4R

By MOTCO

₹14,159  

A MOTCO 1 HP 230 V 1500 rpm DC Compound Motor, 1003-4R is a type of direct current (DC) electric motor that combines the characteristics of both series-wound and shunt-wound motors. It is designed to provide a combination of high starting torque and relatively constant speed under varying loads. Here are the key features and characteristics of a DC compound motor: Construction: A DC compound motor consists of both series and shunt field windings. These windings are typically wound on the same stator core but connected in a manner that allows them to produce magnetic fields in opposing directions. Series Field: The series field winding is connected in series with the armature winding. This configuration provides high starting torque, similar to a series-wound motor. The series field winding carries the same current as the armature, resulting in strong magnetic fields during startup. Shunt Field: The shunt field winding is connected in parallel with the armature winding. This configuration provides the motor with good speed regulation characteristics, similar to a shunt-wound motor. The shunt field winding carries a fraction of the total current, allowing for more stable speed control. Operating Characteristics: DC compound motors can be classified into two main types based on the arrangement of their series and shunt field windings: Cumulative Compound Motor: In this type, the series field winding aids the shunt field, resulting in a motor with characteristics intermediate between those of a shunt and a series motor. Differentially Compound Motor: In this type, the series field opposes the shunt field, resulting in a motor with characteristics that counteract the speed regulation of the shunt field, providing better speed stability under varying loads. Starting Torque: DC compound motors offer high starting torque, making them suitable for applications requiring high initial force or acceleration, such as conveyor belts, hoists, and elevators. Speed Regulation: The speed of a DC compound motor can be regulated by adjusting the armature voltage or the field current. By varying these parameters, the motor's speed can be controlled to suit the requirements of the application.

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MOTCO 1 HP 230 V 2880 RPM AC SCIM Motor, 1005-2CI

By MOTCO

₹11,563  

An MOTCO 1 HP 230 V 2880 rpm AC SCIM Motor, 1005-2CI is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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MOTCO 1 HP 230 V 1500 RPM DC Shunt Motor, 1001-4R

By MOTCO

₹14,159  

A MOTCO 1 HP 230 V 1500 rpm DC Shunt Motor, 1001-4R is a type of direct current (DC) electric motor that operates on the principle of electromagnetic induction. It is called a "shunt" motor because the field winding (shunt winding) is connected in parallel with the armature winding.
Here are some key characteristics and features of a DC shunt motor: Field Windings: The field winding, also known as the shunt winding, is connected in parallel with the armature winding. This arrangement allows the field current to remain relatively constant regardless of changes in armature current or speed. Operating Principle: Like all DC motors, the DC shunt motor operates based on the interaction between magnetic fields. When current flows through the field winding, it generates a magnetic field. When current flows through the armature winding, it interacts with the magnetic field, creating a force that causes the motor to rotate. Speed Regulation: DC shunt motors typically have good speed regulation characteristics, meaning they can maintain relatively constant speed under varying loads. This is because the field current remains relatively constant, providing consistent magnetic field strength. Speed Control: The speed of a DC shunt motor can be controlled by varying the armature voltage or the field current. By adjusting either of these parameters, the motor's speed can be increased or decreased as needed. Applications: DC shunt motors are commonly used in applications where speed regulation is important, such as in machine tools, conveyor belts, and elevators. They are also used in applications where constant speed is desired, such as in centrifugal pumps and fans.

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MOTCO 1 HP 230 V 3000 RPM DC Compound Motor, 1003-2S

By MOTCO

₹13,125  

A MOTCO 1 HP 230 V 3000 rpm DC Compound Motor, 1003-2S is a type of direct current (DC) electric motor that combines the characteristics of both series-wound and shunt-wound motors. It is designed to provide a combination of high starting torque and relatively constant speed under varying loads. Here are the key features and characteristics of a DC compound motor: Construction: A DC compound motor consists of both series and shunt field windings. These windings are typically wound on the same stator core but connected in a manner that allows them to produce magnetic fields in opposing directions. Series Field: The series field winding is connected in series with the armature winding. This configuration provides high starting torque, similar to a series-wound motor. The series field winding carries the same current as the armature, resulting in strong magnetic fields during startup. Shunt Field: The shunt field winding is connected in parallel with the armature winding. This configuration provides the motor with good speed regulation characteristics, similar to a shunt-wound motor. The shunt field winding carries a fraction of the total current, allowing for more stable speed control. Operating Characteristics: DC compound motors can be classified into two main types based on the arrangement of their series and shunt field windings: Cumulative Compound Motor: In this type, the series field winding aids the shunt field, resulting in a motor with characteristics intermediate between those of a shunt and a series motor. Differentially Compound Motor: In this type, the series field opposes the shunt field, resulting in a motor with characteristics that counteract the speed regulation of the shunt field, providing better speed stability under varying loads. Starting Torque: DC compound motors offer high starting torque, making them suitable for applications requiring high initial force or acceleration, such as conveyor belts, hoists, and elevators. Speed Regulation: The speed of a DC compound motor can be regulated by adjusting the armature voltage or the field current. By varying these parameters, the motor's speed can be controlled to suit the requirements of the application.

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MOTCO 1 HP 230 V 1500 RPM DC Series Motor, 1002-4R

By MOTCO

₹14,159  

A MOTCO 1 HP 230 V 1500 rpm DC Series Motor, 1002-4R is a type of direct current (DC) electric motor that operates on the principle of electromagnetic induction. It is called a "shunt" motor because the field winding (shunt winding) is connected in parallel with the armature winding.
Here are some key characteristics and features of a DC shunt motor: Field Windings: The field winding, also known as the shunt winding, is connected in parallel with the armature winding. This arrangement allows the field current to remain relatively constant regardless of changes in armature current or speed. Operating Principle: Like all DC motors, the DC shunt motor operates based on the interaction between magnetic fields. When current flows through the field winding, it generates a magnetic field. When current flows through the armature winding, it interacts with the magnetic field, creating a force that causes the motor to rotate. Speed Regulation: DC shunt motors typically have good speed regulation characteristics, meaning they can maintain relatively constant speed under varying loads. This is because the field current remains relatively constant, providing consistent magnetic field strength. Speed Control: The speed of a DC shunt motor can be controlled by varying the armature voltage or the field current. By adjusting either of these parameters, the motor's speed can be increased or decreased as needed. Applications: DC shunt motors are commonly used in applications where speed regulation is important, such as in machine tools, conveyor belts, and elevators. They are also used in applications where constant speed is desired, such as in centrifugal pumps and fans.

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MOTCO 1 HP 230 V 3000 RPM DC Shunt Motor, 1001-2S

By MOTCO

₹13,125  

A MOTCO 1 HP 230 V 3000 rpm DC Shunt Motor, 1001-2S is a type of direct current (DC) electric motor that operates on the principle of electromagnetic induction. It is called a "shunt" motor because the field winding (shunt winding) is connected in parallel with the armature winding.
Here are some key characteristics and features of a DC shunt motor: Field Windings: The field winding, also known as the shunt winding, is connected in parallel with the armature winding. This arrangement allows the field current to remain relatively constant regardless of changes in armature current or speed. Operating Principle: Like all DC motors, the DC shunt motor operates based on the interaction between magnetic fields. When current flows through the field winding, it generates a magnetic field. When current flows through the armature winding, it interacts with the magnetic field, creating a force that causes the motor to rotate. Speed Regulation: DC shunt motors typically have good speed regulation characteristics, meaning they can maintain relatively constant speed under varying loads. This is because the field current remains relatively constant, providing consistent magnetic field strength. Speed Control: The speed of a DC shunt motor can be controlled by varying the armature voltage or the field current. By adjusting either of these parameters, the motor's speed can be increased or decreased as needed. Applications: DC shunt motors are commonly used in applications where speed regulation is important, such as in machine tools, conveyor belts, and elevators. They are also used in applications where constant speed is desired, such as in centrifugal pumps and fans.

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MOTCO 1 HP 415 V 2880 RPM AC SCIM Motor, 1004-2DPMSS

By MOTCO

₹13,125  

An MOTCO 1 HP 415 V 2880 rpm AC SCIM Motor, 1004-2DPMSS is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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MOTCO 1 HP 415 V 2880 RPM AC SCIM Motor, 1004-2DPMSR

By MOTCO

₹12,000  

An MOTCO 1 HP 415 V 2880 rpm AC SCIM Motor, 1004-2DPMSR is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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MOTCO 1 HP 415 V 2880 RPM AC SCIM Motor, 1004-2CI

By MOTCO

₹10,625  

An MOTCO 1 HP 415 V 2880 rpm AC SCIM Motor, 1004-2CI is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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MOTCO 1 HP 415 V 2880 RPM AC SCIM Motor, 1004-2MS

By MOTCO

₹10,000  

An MOTCO 1 HP 415 V 2880 rpm AC SCIM Motor, 1004-2MS is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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MOTCO 1 HP 415 V 1440 RPM AC SCIM Motor, 1004-4DPMSS

By MOTCO

₹13,125  

An MOTCO 1 HP 415 V 1440 rpm AC SCIM Motor, 1004-4DPMSS is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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MOTCO 1 HP 415 V 1440 RPM AC SCIM Motor, 1004-4DPMSR

By MOTCO

₹12,000  

An MOTCO 1 HP 415 V 14405 rpm AC SCIM Motor, 1004-4DPMSR is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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MOTCO 1 HP 415 V 1440 RPM AC SCIM Motor, 1004-4CI

By MOTCO

₹10,625  

An MOTCO 1 HP 415 V 1440 rpm AC SCIM Motor, 1004-4CI is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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MOTCO 1 HP 415 V 1440 RPM AC SCIM Motor, 1004-4MS

By MOTCO

₹10,000  

An MOTCO 1 HP 415 V 1440 rpm AC SCIM Motor, 1004-4MS is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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MOTCO 1 HP 415 V 2880 RPM AC Slip Ring Motor, 1008-2CI

By MOTCO

₹12,500  

An MOTCO 1 HP 415 V 2880 rpm AC Slip Ring Motor, 1008-2CI also known as a wound rotor motor, is a type of induction motor with a rotor that contains slip rings and external resistors. Here are the key features and characteristics of AC slip ring motors: Construction: Like other induction motors, AC slip ring motors consist of a stator with stationary windings and a rotor with conductive bars. However, unlike squirrel cage rotors, the rotor of a slip ring motor has three slip rings mounted on its shaft. These slip rings are connected to the rotor winding coils through brushes. Slip Rings and Brushes: The slip rings allow external resistors to be connected to the rotor windings. The brushes maintain electrical contact between the slip rings and the external circuit. By varying the resistance connected to the slip rings, the speed-torque characteristics of the motor can be adjusted. Starting Method: AC slip ring motors are often started with reduced voltage to limit the starting current. This can be achieved by inserting resistors in series with the rotor windings via the slip rings. As the motor accelerates, the resistance is gradually reduced or shorted out completely to allow the motor to reach full speed. Speed Control: One of the primary advantages of AC slip ring motors is their ability to provide adjustable speed control. By varying the resistance in the rotor circuit, the speed of the motor can be controlled over a wide range. This makes slip ring motors suitable for applications requiring variable speed operation, such as crane hoists, conveyors, and elevators. Applications: AC slip ring motors are commonly used in applications where adjustable speed control is required, along with high starting torque. These include industries such as mining, steel mills, paper mills, and marine propulsion. Advantages: The main advantage of AC slip ring motors is their ability to provide smooth and controlled acceleration, as well as adjustable speed control. They also offer high starting torque, making them suitable for heavy-load applications. Disadvantages: AC slip ring motors are generally more complex and expensive than squirrel cage induction motors due to the addition of slip rings and brushes. They also require more maintenance due to the wear of the brushes and the need to periodically inspect and replace them.

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MOTCO 1 HP 415 V 2880 RPM AC Slip Ring Motor, 1008-2DPMS

By MOTCO

₹13,125  

An MOTCO 1 HP 415 V 2880 rpm AC Slip Ring Motor, 1008-2DPMS also known as a wound rotor motor, is a type of induction motor with a rotor that contains slip rings and external resistors. Here are the key features and characteristics of AC slip ring motors: Construction: Like other induction motors, AC slip ring motors consist of a stator with stationary windings and a rotor with conductive bars. However, unlike squirrel cage rotors, the rotor of a slip ring motor has three slip rings mounted on its shaft. These slip rings are connected to the rotor winding coils through brushes. Slip Rings and Brushes: The slip rings allow external resistors to be connected to the rotor windings. The brushes maintain electrical contact between the slip rings and the external circuit. By varying the resistance connected to the slip rings, the speed-torque characteristics of the motor can be adjusted. Starting Method: AC slip ring motors are often started with reduced voltage to limit the starting current. This can be achieved by inserting resistors in series with the rotor windings via the slip rings. As the motor accelerates, the resistance is gradually reduced or shorted out completely to allow the motor to reach full speed. Speed Control: One of the primary advantages of AC slip ring motors is their ability to provide adjustable speed control. By varying the resistance in the rotor circuit, the speed of the motor can be controlled over a wide range. This makes slip ring motors suitable for applications requiring variable speed operation, such as crane hoists, conveyors, and elevators. Applications: AC slip ring motors are commonly used in applications where adjustable speed control is required, along with high starting torque. These include industries such as mining, steel mills, paper mills, and marine propulsion. Advantages: The main advantage of AC slip ring motors is their ability to provide smooth and controlled acceleration, as well as adjustable speed control. They also offer high starting torque, making them suitable for heavy-load applications. Disadvantages: AC slip ring motors are generally more complex and expensive than squirrel cage induction motors due to the addition of slip rings and brushes. They also require more maintenance due to the wear of the brushes and the need to periodically inspect and replace them.

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MOTCO 1 HP 415 V 1440 RPM AC Slip Ring Motor, 1008-4CI

By MOTCO

₹12,500  

An MOTCO 1 HP 415 V 1440 rpm AC Slip Ring Motor, 1008-4CI also known as a wound rotor motor, is a type of induction motor with a rotor that contains slip rings and external resistors. Here are the key features and characteristics of AC slip ring motors: Construction: Like other induction motors, AC slip ring motors consist of a stator with stationary windings and a rotor with conductive bars. However, unlike squirrel cage rotors, the rotor of a slip ring motor has three slip rings mounted on its shaft. These slip rings are connected to the rotor winding coils through brushes. Slip Rings and Brushes: The slip rings allow external resistors to be connected to the rotor windings. The brushes maintain electrical contact between the slip rings and the external circuit. By varying the resistance connected to the slip rings, the speed-torque characteristics of the motor can be adjusted. Starting Method: AC slip ring motors are often started with reduced voltage to limit the starting current. This can be achieved by inserting resistors in series with the rotor windings via the slip rings. As the motor accelerates, the resistance is gradually reduced or shorted out completely to allow the motor to reach full speed. Speed Control: One of the primary advantages of AC slip ring motors is their ability to provide adjustable speed control. By varying the resistance in the rotor circuit, the speed of the motor can be controlled over a wide range. This makes slip ring motors suitable for applications requiring variable speed operation, such as crane hoists, conveyors, and elevators. Applications: AC slip ring motors are commonly used in applications where adjustable speed control is required, along with high starting torque. These include industries such as mining, steel mills, paper mills, and marine propulsion. Advantages: The main advantage of AC slip ring motors is their ability to provide smooth and controlled acceleration, as well as adjustable speed control. They also offer high starting torque, making them suitable for heavy-load applications. Disadvantages: AC slip ring motors are generally more complex and expensive than squirrel cage induction motors due to the addition of slip rings and brushes. They also require more maintenance due to the wear of the brushes and the need to periodically inspect and replace them.

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MOTCO 1 HP 415 V 1440 RPM AC Slip Ring Motor, 1008-4MS

By MOTCO

₹13,125  

An MOTCO 1 HP 415 V 1440 rpm AC Slip Ring Motor, 1008-4MS also known as a wound rotor motor, is a type of induction motor with a rotor that contains slip rings and external resistors. Here are the key features and characteristics of AC slip ring motors: Construction: Like other induction motors, AC slip ring motors consist of a stator with stationary windings and a rotor with conductive bars. However, unlike squirrel cage rotors, the rotor of a slip ring motor has three slip rings mounted on its shaft. These slip rings are connected to the rotor winding coils through brushes. Slip Rings and Brushes: The slip rings allow external resistors to be connected to the rotor windings. The brushes maintain electrical contact between the slip rings and the external circuit. By varying the resistance connected to the slip rings, the speed-torque characteristics of the motor can be adjusted. Starting Method: AC slip ring motors are often started with reduced voltage to limit the starting current. This can be achieved by inserting resistors in series with the rotor windings via the slip rings. As the motor accelerates, the resistance is gradually reduced or shorted out completely to allow the motor to reach full speed. Speed Control: One of the primary advantages of AC slip ring motors is their ability to provide adjustable speed control. By varying the resistance in the rotor circuit, the speed of the motor can be controlled over a wide range. This makes slip ring motors suitable for applications requiring variable speed operation, such as crane hoists, conveyors, and elevators. Applications: AC slip ring motors are commonly used in applications where adjustable speed control is required, along with high starting torque. These include industries such as mining, steel mills, paper mills, and marine propulsion. Advantages: The main advantage of AC slip ring motors is their ability to provide smooth and controlled acceleration, as well as adjustable speed control. They also offer high starting torque, making them suitable for heavy-load applications. Disadvantages: AC slip ring motors are generally more complex and expensive than squirrel cage induction motors due to the addition of slip rings and brushes. They also require more maintenance due to the wear of the brushes and the need to periodically inspect and replace them.

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MOTCO 1 HP 230 V 2880 RPM AC SCIM Motor, 1005-2DPMS

By MOTCO

₹12,979  

An MOTCO 1 HP 230 V 2880 rpm AC SCIM Motor, 1005-2DPMS is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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MOTCO 1 HP 230 V 2880 RPM AC SCIM Motor, 1005-2MS

By MOTCO

₹10,855  

An MOTCO 1 HP 230 V 2880 rpm AC SCIM Motor, 1005-2MS is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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MOTCO 1 HP 230 V 1440 RPM AC SCIM Motor, 1005-4DPMS

By MOTCO

₹12,979  

An MOTCO 1 HP 230 V 1440 rpm AC SCIM Motor, 1005-4DPMS is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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MOTCO 1 HP 230 V 1440 RPM AC SCIM Motor, 1005-4CI

By MOTCO

₹11,563  

An MOTCO 1 HP 230 V 1440 rpm AC SCIM Motor, 1005-4CI is one of the most commonly used types of electric motors, particularly in industrial and commercial applications. Here's a breakdown of its features and operation:
Basic Principle: The AC SCIM operates on the principle of electromagnetic induction. When AC power is supplied to the motor, it creates a rotating magnetic field in the stator windings. This rotating magnetic field induces currents in the rotor bars, causing the rotor to rotate.
Rotor Design: The rotor of a squirrel cage induction motor consists of a cylindrical laminated core with conductive bars (usually made of aluminum or copper) placed parallel to the motor's shaft and embedded within the rotor slots. The shape of these bars resembles a squirrel cage, hence the name.
Starting Method: AC SCIMs typically use methods such as direct-on-line (DOL) starting or soft starters to initiate rotation. During startup, the rotating magnetic field in the stator induces currents in the rotor bars, generating torque and causing the rotor to accelerate.
Speed Regulation: The speed of an AC SCIM is primarily determined by the frequency of the AC power supply and the number of poles in the motor. These motors have a synchronous speed dictated by the frequency of the power supply and the number of poles. However, the actual operating speed is slightly lower than the synchronous speed due to slip, which is necessary for the generation of torque.
Applications: AC SCIMs are widely used in various industrial applications, including pumps, compressors, conveyors, fans, blowers, and many other types of machinery requiring continuous and reliable operation.
Advantages: Some advantages of AC SCIMs include their simple and robust construction, low maintenance requirements, high reliability, and cost-effectiveness.
Limitations: One limitation of AC SCIMs is that they have relatively lower efficiency compared to some other types of motors, especially at low speeds. Additionally, they do not offer speed control without additional devices such as variable frequency drives (VFDs).

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