Speed Torque Characteristics of DC Servomotor

Speed Torque Characteristics of DC Servomotor

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Product Details:

  • Display Analog/graphical plotting (as per laboratory experiment instructions)
  • Usage Academic, Laboratory, Research, Testing of DC servomotor speed-torque characteristics
  • Power Single phase AC mains or DC Power supply (as specified by manufacturer)
  • Voltage Typically 220V AC or 24V DC (check product manual)
  • Product Type Speed-Torque Characteristics of DC Servomotor Apparatus
  • Material Powder-coated metal enclosure and high grade electrical components
  • Design Self-contained, panel-mounted modules, user-friendly layout
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Speed Torque Characteristics of DC Servomotor Price And Quantity

  • 1 Unit
  • 0°C to 50°C
  • Spring balance with load mechanism (integrated)
  • Manual or automated, dependent on experiment kit version
  • Ideal for undergraduate and diploma electrical engineering curriculum
  • 0 to 1 Nm (Nominal as per model)
  • RPM indication with tachogenerator or digital/analog RPM meter
  • DC Permanent Magnet Servomotor
  • Table-top, non-slip base with rubber footings
  • Connecting leads, instructional manual, load set
  • Low maintenance, easy-to-service modular construction
  • Enables plotting of speed-torque curve for DC servomotor
  • Conforms to standard laboratory safety and test norms
  • Overload and short circuit protection provided

Speed Torque Characteristics of DC Servomotor Product Specifications

  • Single phase AC mains or DC Power supply (as specified by manufacturer)
  • Typically 220V AC or 24V DC (check product manual)
  • Academic, Laboratory, Research, Testing of DC servomotor speed-torque characteristics
  • Approx. 7-8 kg
  • Powder-coated metal enclosure and high grade electrical components
  • High accuracy, suitable for laboratory demonstration and educational analysis
  • External power supply (AC/DC as specified)
  • Analog/graphical plotting (as per laboratory experiment instructions)
  • Not applicable (operates on external power supply)
  • Approx. 330 mm x 225 mm x 120 mm
  • Self-contained, panel-mounted modules, user-friendly layout
  • Speed-Torque Characteristics of DC Servomotor Apparatus
  • 0°C to 50°C
  • Spring balance with load mechanism (integrated)
  • Manual or automated, dependent on experiment kit version
  • Ideal for undergraduate and diploma electrical engineering curriculum
  • 0 to 1 Nm (Nominal as per model)
  • RPM indication with tachogenerator or digital/analog RPM meter
  • DC Permanent Magnet Servomotor
  • Table-top, non-slip base with rubber footings
  • Connecting leads, instructional manual, load set
  • Low maintenance, easy-to-service modular construction
  • Enables plotting of speed-torque curve for DC servomotor
  • Conforms to standard laboratory safety and test norms
  • Overload and short circuit protection provided

Speed Torque Characteristics of DC Servomotor Trade Information

  • 5 Unit Per Week
  • 4-5 Days

Product Description

DESCRIPTION

The devices used in electrical control system are AC and DC servomotors. DC servomotor has been the prime element most widely used in control applications. In position control the DC servomotor is of the highest choice to simple control circuitry. These motors suffers from wear and tear because of brush and commutator. The DC motor can be controlled by either field flux or by armature control. But variable flux motor suffer from costlier current source for armature and slightly poor control of field flux due to magnetization saturation for low speed application.

TECHNICAL SPECIFICATIONS

  • Shunt wound DC Servomotor.  
  • Separate DC supplies for field and armature.  
  • 2 nos. o f Digital volt meter
  • 2 nos. of Digital Current meter
  • Digital RPM meter.
  • Belt & pulley loading for torque measurement.
  • Two spring balance.
  • 220 V ac line operation.
  • 220V ±10%, 50Hz mains operated.
  • User's Manual with patch cords.



Educational Relevance and Design

Purpose-built for academic labs, this module aligns seamlessly with undergraduate and diploma engineering curricula. Its compact, self-contained build featuring a panel-mounted layout and user-friendly interface simplifies experimental setup and demonstration. Instructional manuals and included accessories promote hands-on learning, enabling effective exploration of DC servomotor speed-torque characteristics.


Precision Measurement and Safety

Speed is measured using a tachogenerator or digital/analog RPM meter, ensuring high accuracy throughout the experiment. Integrated overload and short-circuit protection provide a safe environment for both users and devices during intensive lab sessions. The systems spring balance with load mechanism offers straightforward yet precise torque measurement on a stable, non-slip table-top base.


Applications and Versatility

Ideal for academic, laboratory, and research settings, this module facilitates detailed analysis of DC servomotor performance. The graphical plotting capabilitymanual or automatedenables students and researchers to visualize and interpret the relationship between speed and torque. Its reliable, modular construction ensures easy servicing, making it suitable for frequent instructional use.

FAQs of Speed Torque Characteristics of DC Servomotor:


Q: How is speed measured in this DC servomotor speed-torque characteristics module?

A: Speed is measured via a tachogenerator or a digital/analog RPM meter, which provides reliable speed indications suitable for experimental plotting and analysis in academic settings.

Q: What is the process for plotting the speed-torque curve using this experiment kit?

A: The process involves gradually applying load to the DC servomotor using the integrated spring balance mechanism while simultaneously recording the corresponding speed (in RPM). These readings are then plotted either manually or automatically, depending on the kit version.

Q: When is this module most beneficial for educational use?

A: This kit is specifically designed for undergraduate and diploma curriculum laboratories, making it most beneficial during practical sessions, demonstrations, and hands-on student experiments on DC servomotor characteristics.

Q: Where can this module be installed and used?

A: The module is intended for use in academic, laboratory, and research environments. Its table-top configuration with rubber footings ensures stable operation on standard laboratory benches or workstations.

Q: What accessories are included with the module?

A: Each kit includes connecting leads, a comprehensive instructional manual, a load set for applying torque, and all essential components required for conducting and recording speed-torque experiments.

Q: How does the system ensure operator and equipment safety during experiments?

A: The module features built-in overload and short-circuit protection, conforming to standard laboratory safety norms. This safeguards both users and equipment throughout experimental procedures.

Q: What maintenance is required for this experiment module?

A: The module is constructed with a modular design and powder-coated metal enclosure for durability and easy servicing. Maintenance is minimalusually limited to periodic checks and cleaning, ensuring reliable operation over repeated use.

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