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AC DC Drives: Constant Torque Applications
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Sunday, January 25, 2009. Conveyors are made up of belts to support the load, various pulleys to support the belt, maintain tension, and change belt direction, and idlers to support the belt and load. If, for example, the maximum desired speed of a conveyor is. Effective tension (Te) is determined by several forces:. 8226; Gravitational weight of the load. 8226; Length and weight of belt. 8226; Friction of material on the conveyor. 8226; Friction of all drive components and accessories. 2000 pounds and t...
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AC DC Drives: Variable Torque Applications
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Sunday, January 25, 2009. A variable torque load implies that torque and horsepower increase with an increase in speed. Overloads, as a rule of thumb, are not possible at lower speeds. Peak torques are typically limited to rated torque. Fans and pumps are examples of variable torque. A pump used on a chilled water system is shown below. Liquid horsepower is the hydraulic power transferred to the pumped liquid. The following formula can be used to calculate liquid energy. If the pumps speed were increased...
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AC DC Drives: Constant Horsepower Applications
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Sunday, January 25, 2009. Constant horsepower applications require a constant force as radius changes. A lathe, for example, starts out with a certain diameter object. As the object is cut and shaped the diameter is reduced. The cutting force must remain constant. Another example of a constant horsepower application is a winder where radius increases as material is added to a roll and decreases as material is removed. Relationship of Speed, Torque, and Horsepower. Horsepower is equal to torque times speed.
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AC DC Drives: Introduction
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Wednesday, January 14, 2009. Welcome to course in the STEP 2000 series, Siemens. Technical Education Program, designed to understand basic of AC drives more effectively. This course covers Basics of AC Drives. Upon completion of Basics of AC Drives you should be able to:. 8226; Explain the concept of force, inertia, speed, and torque. 8226; Explain the difference between work and power. 8226; Describe the construction of a squirrel cage AC motor. Application to an AC Drive. View my complete profile.
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AC DC Drives: Basic AC Drives
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Sunday, January 25, 2009. Current Source Inverter The current source inverter (CSI) uses an SCR input to produce a variable voltage DC link. The inverter section also uses SCRs for switching the output to the motor. The current source inverter controls the current in the motor. The motor must be carefully matched to the drive. Current spikes, caused by switching, can be seen in the output. At low speeds current pulses can causes the motor to cog. Control Logic and Inverter Output voltage and frequency to...
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AC DC Drives: Multimotor Applications
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Sunday, January 25, 2009. Subscribe to: Post Comments (Atom). Siemens AC Drives and Totally Integrated. Electrical Components of a Motor. View my complete profile.
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AC DC Drives: Siemens MASTERDRIVE
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Sunday, January 25, 2009. Siemens MASTERDRIVES provide an excellent solution for industrial applications worldwide. In addition to standard air cooled units, water cooled versions can be used in areas with high ambient temperature or where external air cooling is unavailable. MASTERDRIVES can be used for variable-speed control on motors rated from 1 to 5,000 HP. MASTERDRIVES are available for all major worldwide 3-phase supply voltages: 380-460, 500-575, and 660-690 volts. The Siemens. AC - AC (Converter).
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AC DC Drives: January 2009
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Sunday, January 25, 2009. Links to this post. Constant horsepower applications require a constant force as radius changes. A lathe, for example, starts out with a certain diameter object. As the object is cut and shaped the diameter is reduced. The cutting force must remain constant. Another example of a constant horsepower application is a winder where radius increases as material is added to a roll and decreases as material is removed. Relationship of Speed, Torque, and Horsepower. Links to this post.
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AC DC Drives: Voltage and Frequency
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Wednesday, January 14, 2009. Volts per Hertz A ratio exists between voltage and frequency. This ratio is referred to as volts per hertz (V/Hz). A typical AC motor manufactured for use in the United States is rated for 460 VAC and 60 Hz. The ratio is 7.67 volts per hertz. Not every motor has a 7.67 V/Hz ratio. A 230 Volt, 60 Hz motor, for example, has a 3.8 V/Hz ratio. Actual torque produced, however, is determined by the demand of the load. Some applications require higher than 150% starting torque.
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AC DC Drives: Electrical Components of a Motor
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Wednesday, January 14, 2009. Electrical Components of a Motor. VS Line voltage applied to stator power leads. LS Stator leakage inductance. E Air gap or magnetizing voltage. RR Rotor resistance (varies with temperature. LR Rotor leakage inductance. IW Working or torque producing current. Line Voltage Voltage (VS) is applied to the stator power leads from the AC power supply. Voltage drops occur due to stator resistance (RS). Im = E / 2 * 3.14 * F * Lm. Subscribe to: Post Comments (Atom).