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Supplier: maxon
Description: maxon IDX drives consist of an EC-i motor, a magnetic absolute encoder (single-turn), and an EPOS4 positioning controller with integrated field-oriented control (FOC). The high-quality design complies with IP65 protection; only the output shaft needs to be sealed by the
- Continuous Torque: 8.58 to 11.76 In-lbs
- Design Units: Metric
- Diameter / Width: 2.76 inch
- Motor Shape: Cylindrical Body
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Supplier: maxon
Description: maxon IDX drives consist of an EC-i motor, a magnetic absolute encoder (single-turn), and an EPOS4 positioning controller with integrated field-oriented control (FOC). The high-quality design complies with IP65 protection; only the output shaft needs to be sealed by the
- Continuous Torque: 13.19 to 18.76 In-lbs
- Design Units: Metric
- Diameter / Width: 2.76 inch
- Motor Shape: Cylindrical Body
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Supplier: maxon
Description: maxon IDX drives consist of an EC-i motor, a magnetic absolute encoder (single-turn), and an EPOS4 positioning controller with integrated field-oriented control (FOC). The high-quality design complies with IP65 protection; only the output shaft needs to be sealed by the
- Continuous Torque: 24.34 to 27.17 In-lbs
- Design Units: Metric
- Diameter / Width: 2.76 inch
- Motor Shape: Cylindrical Body
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Supplier: maxon
Description: maxon IDX drives consist of an EC-i motor, a magnetic absolute encoder (single-turn), and an EPOS4 positioning controller with integrated field-oriented control (FOC). The high-quality design complies with IP65 protection; only the output shaft needs to be sealed by the
- Continuous Torque: 8.58 to 11.76 In-lbs
- Design Units: Metric
- Diameter / Width: 2.76 inch
- Motor Shape: Cylindrical Body
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Description: inverter, speed sensing and control in subway and high-speed rail field 7. Magnetic encoder for electric vehicle position sensing 8. Magnetic encoder for wind turbine yaw control 9. Servo System for medical equipment 10. High-speed motor spindle control system 11. Angular
- Encoder Technology: Magnetic
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Description: , speed sensing and control in subway and high-speed rail field 7. Magnetic encoder for electric vehicle position sensing 8. Magnetic encoder for wind turbine yaw control 9. Servo System for medical equipment 10. High-speed motor spindle control system 11. Angular
- Encoder Technology: Magnetic
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Supplier: Infineon Technologies AG
Description: XENSIV™ - TLE5011 magnetic angle sensor with integrated magnetic field sensing The TLE5011 is a 360° angle sensor that detects the orientation of a magnetic field by measuring sine and cosine angle components with monolithic integrated Giant Magneto Resistance
- Input (Supply) Voltage: -0.5000 to 6.5 volts
- Magnetic Field Range: 250 to 700 Oersted
- Operating Temperature: -40 to 150 C
- Package Type / Mounting: Surface Mount (SMD), Other
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Supplier: Infineon Technologies AG
Description: components of a rotating magnetic field are measured by Magneto Resistive (MR) elements. The sensors provide analog sine and cosine output voltages that describe the magnetic angle in a range of 0 to 180° (AMR sensor), and 0 to 360° (GMR sensor), respectively. The differential
- Input (Supply) Voltage: -0.5000 to 6.5 volts
- Magnetic Field Range: 210 to 500 Oersted
- Operating Temperature: -40 to 125 C
- Package Type / Mounting: Surface Mount (SMD), Other
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Supplier: Infineon Technologies AG
Description: The TLE5011 is a 360° angle sensor that detects the orientation of a magnetic field by measuring sine and cosine angle components with monolithic integrated Giant Magneto Resistance (iGMR) elements. Data communications are accomplished with a bi-directional Synchronous Serial
- Form Factor: Integrated Chip (IC)
- Number of Axes: 2
- Operating Temperature: -40 to 302 F
- Output: Digital
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Supplier: Chengdu Fuyu Technology Co., Ltd
Description: ] It can be used in combination with single or multiple axes. It is easy to match the required workpieces in various industries and it becomes a simple and practical mechanical arm. It is mainly used in dust free workshops or special fields such as electronics and medical equipment, such as
- Bearing Type: Ball Slide, Linear Guide Bearing
- Carriage Load: 110 to 220 lbs
- Drive Specifications: Ball Screw
- Features: Adjustable Stroke, Magnetic Switch, Multi-position, Side Motor / Mount, Water Resistant (Sealed)
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Supplier: Chengdu Fuyu Technology Co., Ltd
Description: mainly used in dust free workshops or special fields such as electronics and medical equipment, such as film, Discount, IC printing, CCD online testing, solder automation equipment. Series: FSL80 Stroke Range: 100mm~1500mm Position Accuracy: 0.05mm Max Speed: 300mm/s Max Load: 60kg Ball
- Bearing Type: Linear Guide Bearing
- Carriage Load: 44.1 to 88.2 lbs
- Drive Specifications: Ball Screw
- Features: Adjustable Stroke, Magnetic Switch, Multi-position, Side Motor / Mount, Water Resistant (Sealed)
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Supplier: Chengdu Fuyu Technology Co., Ltd
Description: mainly used in dust free workshops or special fields such as electronics and medical equipment, such as film, Discount, IC printing, CCD online testing, solder automation equipment. Series: FSL80 Stroke Range: 100mm~1500mm Position Accuracy: 0.05mm Max Speed: 300mm/s Max Load: 60kg Ball
- Bearing Type: Linear Guide Bearing
- Carriage Load: 44.1 to 88.2 lbs
- Drive Specifications: Ball Screw
- Features: Adjustable Stroke, Magnetic Switch, Multi-position, Side Motor / Mount, Water Resistant (Sealed)
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Supplier: Honeywell Sensing & IoT
Description: Hall-Effect Latching Digital Sensor ICs respond to low magnetic fields and offer consistent repeatability while delivering faster response times to a change in magnetic field for better motor efficiency. These products are available in four package styles: SS360NT,
- Input (Supply) Voltage: 3 to 24 volts
- Operating Temperature: -40 to 150 C
- Output Voltage: 600 millivolts
- Package Type / Mounting: Other
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Supplier: Honeywell Sensing & IoT
Description: Hall-Effect Latching Digital Sensor ICs respond to low magnetic fields and offer consistent repeatability while delivering faster response times to a change in magnetic field for better motor efficiency. These products are available in four package styles: SS360NT,
- Input (Supply) Voltage: 3 to 24 volts
- Operating Temperature: -40 to 150 C
- Output Voltage: 600 millivolts
- Package Type / Mounting: Other
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Supplier: Honeywell Sensing & IoT
Description: Hall-Effect Latching Digital Sensor ICs respond to low magnetic fields and offer consistent repeatability while delivering faster response times to a change in magnetic field for better motor efficiency. These products are available in four package styles: SS360NT,
- Input (Supply) Voltage: 3 to 24 volts
- Operating Temperature: -40 to 150 C
- Output Voltage: 600 millivolts
- Package Type / Mounting: Other
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Supplier: Honeywell Sensing & IoT
Description: Hall-Effect Latching Digital Sensor ICs respond to low magnetic fields and offer consistent repeatability while delivering faster response times to a change in magnetic field for better motor efficiency. These products are available in four package styles: SS360NT,
- Input (Supply) Voltage: 3 to 24 volts
- Operating Temperature: -40 to 150 C
- Output Voltage: 600 millivolts
- Package Type / Mounting: Other
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Supplier: ams
Description: device suppresses the influence of any homogenous external stray magnetic field. A standard 4-wire SPI serial interface allows a host microcontroller to read 14-bit absolute angle position data from the AS5247 and to program non-volatile settings without a dedicated programmer.
- Category of Device: Sensor / Transducer
- Operating Temperature: -40 to 302 F
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Supplier: Chengdu Fuyu Technology Co., Ltd
Description: ] It can be used in combination with single or multiple axes. It is easy to match the required workpieces in various industries and it becomes a simple and practical mechanical arm. It is mainly used in dust free workshops or special fields such as electronics and medical equipment, such as
- Bearing Type: Linear Guide Bearing
- Carriage Load: 110 to 220 lbs
- Drive Specifications: Ball Screw
- Features: Adjustable Stroke, Magnetic Switch, Multi-position, Side Motor / Mount, Water Resistant (Sealed)
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Supplier: Littelfuse, Inc.
Description: Unaffected by harsh environments Operates in static or dynamic magnetic field Available with a selection of cable length and connector options Applications: Position and limit sensing RPM measurement Flow metering Commutation of brushless DC motors Angle sensing
- Operating Distance: 0.5315 inch
- Operating Temperature: -40 to 212 F
- Output: Current
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Supplier: Littelfuse, Inc.
Description: compensation Benefits: High switching speed up to 10kHz Long life, up to 20 billion operations Visual indication of operation Unaffected by harsh environments Operates in static or dynamic magnetic field Available with a selection of cable length and connector options Applications:
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Supplier: Littelfuse, Inc.
Description: ) Integral reverse/over-voltage protection Built-in temperature compensation Benefits: High switching speed up to 10kHz Long life, up to 20 billion operations Unaffected by harsh environments Operates in static or dynamic magnetic field Available with a selection of cable length and
- Operating Temperature: -40 to 212 F
- Output: Voltage
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Supplier: PI (Physik Instrumente) L.P.
Description: cleanroom applications. 3-Phase torque motor Brushless Slotless Low cogging torque Accessories and options Incremental or absolute encoder Vacuum feedthrough Self-locking at rest by magnetic preload Clear
- Design Units: Metric
- Load Capacity: 8.99 to 270 lbs
- Shape: Flat, Rectangular / Square
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Supplier: RS Components, Ltd.
Description: (linear and angle) . Brushless dc motor control and positioning . Actuator control and positioning . Contactless angular measurement and detection . Magnetic angular position sensing Features. High precision 180° angle sensor. Maximum angular error of 0.5°. Analog sine and
- Input (Supply) Voltage: 2.7 to 5.5 volts
- Operating Temperature: -40 to 125 C
- Sensor Type: Proximity Sensor
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Supplier: RS Components, Ltd.
Description: (linear and angle) . Brushless dc motor control and positioning . Actuator control and positioning . Contactless angular measurement and detection . Magnetic angular position sensing Features. High precision 180° angle sensor. Maximum angular error of 0.5°. Analog sine and
- Input (Supply) Voltage: 2.7 to 5.5 volts
- Operating Temperature: -40 to 125 C
- Sensor Type: Proximity Sensor
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Supplier: Littelfuse, Inc.
Description: Hz Vibration 50 g max. @50–2,000 Hz Shock 150g max. @ 11 ms 1/2 sine Long Life - up to 20 billion operations RoHS compliant IP67 rated Application: Position and limit sensing RPM measurement Flow metering Commutation of brushless DC motors Magnetic encoders Angle sensing
- Switch Type: Dry Reed Switch
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Featured Products Top
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arrangement/relationship between the stator slots and the permanent magnet poles on the rotor is known as the slotpole combination, which describes the motor’s magnetic field interactions. There are different slot/pole combinations possible with miniature slotted motors. A high winding (read more)
Browse Brushless Motors Datasheets for Portescap -
north and south position. When current is applied, a magnetic field is created between the magnet pole pair, forcing the rotor to turn. Motor configurations also include 4pole, that includes two pole pairs of magnets, through to multi-pole designs that include up to 12poles. Pole count is a (read more)
Browse Brushless Motors Datasheets for maxon -
effectiveness of the magnetic field, with coil heads perfectly integrated into the compact motor design. Due to minimal joule and iron losses, maximum power is available to achieve the application’s specific performance characteristics in the frame size required. Minimal losses also mean greater (read more)
Browse Brushless Motors Datasheets for Portescap -
of a Stator and a Rotor. The stator creates a magnetic field which in turn will rotate the rotor consisting of magnets to power the machinery. Brushed motors on the other hand, use a series of carbon / precious metal brushes to transfer the current to the electromagnets. DC brushless motors (BLDC (read more)
Browse Brushless Motors Datasheets for parvalux by maxon -
In the fight for high performance with minimum weight, the 3274 BP4 is the new champion in the ring. The 3274 BP4 is a small brushless DC motor from FAULHABER, measuring 32 mm in diameter and 74 mm in length features massive continuous torque of 165 mNm and weighs in at just under 320 g (read more)
Browse Brushless Motors Datasheets for FAULHABER MICROMO -
3X MOTION Brushless DC Motors are widely used in such varied applications as office equipment, pumps, textiles machines and much more. A series of 3X MOTION brushless DC motors are designed according to the typical characteristics and applications (sine wave or square wave) of (read more)
Browse Brushless Motors Datasheets for 3X Motion Technologies Co., Ltd -
fields such as industrial small robot arms, master-slave manipulators, dual arm robots, bipedal robots and others. Brushless AC Servo Motor The ultrathin AC Servo Motors containing the combination of gear, motor, and encoder with increased power to weight ratio are applied to this application. (read more)
Browse Brushless Motors Datasheets for Citizen Chiba Precision Co., Ltd. -
The 45ECF brushless slotted flat motor features a flat and open architectural design able to provide high torque within a compact package and without compromising on targeted performance. The motor includes hall sensors allowing for easier control of speed and torque. The 45ECF (read more)
Browse Brushless Motors Datasheets for Portescap -
MICROMO is proud to announce and offer the new 2057 BHS small brushless DC servo motor from FAULHABER. This new motor series is designed to address the specific requirements of the medical and dental handpiece markets. While remaining cool to the touch, the high efficiency, slotless design (read more)
Browse DC Servomotors Datasheets for FAULHABER MICROMO -
?High output The rotor uses Nd magnets. The stator was designed for maximum output per unit volume to maximize winding. ?Long service life Since these are brushless motors, the only limit to service life is how long the ball bearings (read more)
Browse Brushless Motors Datasheets for Citizen Chiba Precision Co., Ltd.
Conduct Research Top
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Intelligent Thermal Management Using Brushless DC Fans
particles, wear out, or act as an ignition source. In addition, its magnetic coils are stationary and are usually mounted within a rigid frame for superior structural integrity and thermal dissipation. BDC fans are electrically quiet: they lack the rotating magnetic fields of AC motors and the arcing
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EC Motors: Principle of Operation
assembly). In a brushed motor, electrical current flows through the motor terminals in the endcap assembly that comes in contact with the commutator in the armature assembly through the carbon brushes or brush leaves. The electrical current powers the coils generating a magnetic field causing
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DC Motors: Principle of Operation
assembly). In a brushed motor, electrical current flows through the motor terminals in the endcap assembly that comes in contact with the commutator in the armature assembly through the carbon brushes or brush leaves. The electrical current powers the coils generating a magnetic field causing
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Difference Between DC and AC Motor
and DC brushless motors according to the type of steering gear. Among them, the stator of the brushed DC motor is a permanent magnet, and the rotor is a winding metal armature, which is commutated by carbon brushes and a commutator. The stator of the brushless DC motor is a winding coil, and the rotor
More Information Top
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Numerical analysis of permanent-magnet motor performance considering rotor movement
[4] I. Tiˇcar, A. Stermecki, and I. Zagradiˇsnik, “Numerical analysis of the brushless motor magnetic field and torque,” in ISEF 2003, A. Krawczyk and M. Trlep, Eds. Maribor: FERI, 2003, vol.
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Computer Engineering in Applied Electromagnetism
Numerical Analysis of the Brushless Motor Magnetic Field and Torque .
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Intelligent Computer Techniques in Applied Electromagnetics
I. Tiˇcar, A. Stermecki and I. Zagradiˇsnik, Numerical analysis of the brushless motor magnetic field and torque, in ISEF 2003, vol.
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Analytical magnetic field distribution of slotless brushless PM motors. Part 2: Open-circuit field and torque calculations
Magn., 1993, 29, (1), pp. 124–135 3 Rasmussen, K.F., Davies, J.H., Miller, T.J.E., McGilp, M.I., Olaru, M.: ‘Analytical and numerical computation of air-gap magnetic fields in brushless motors with surface permanent magnets’, IEEE Trans.
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Analytical calculation of electromagnetic torque for surface mounted permanent magnet brushless motors
[9] Rasmussen K F, Davies J H, Miller T J E, McGilp M I, Olaru M. Analytical and numerical computation of air-gap magnetic fields in brushless motors with sur- face permanent magnets [J].
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An Accurate Subdomain Model for Magnetic Field Computation in Slotted Surface-Mounted Permanent-Magnet Machines
[32] K. F. Rasmussen, J. H. Davies, T. J. E. Miller, M. I. McGelp, and M. Olaru, “Analytical and numerical computation of air-gap magnetic fields in brushless motors with surface permanent magnets,” IEEE Trans.
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Analytical Solution of Air-Gap Field in Permanent-Magnet Motors Taking Into Account the Effect of Pole Transition Over Slots
[7] K. F. Rasmussen, H. D. John, T. J. E. Miller, M. I. McGilp, and O. Mircea, “Analytical and numerical computation of air-gap magnetic field in brushless motors with surface permanent magnets,” IEEE Trans.
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Comparison of Analytical Models of Cogging Torque in Surface-Mounted PM Machines
[14] K. F. Rasmussen, J. H. Davies, T. J. E. Miller, M. I. McGelp, and M. Olaru, “Analytical and numerical computation of air-gap magnetic fields in brushless motors with surface permanent magnets,” IEEE Trans.
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Exact Analytical Method for Magnetic Field Computation in the Air Gap of Cylindrical Electrical Machines Considering Slotting Effects
[11] K. F. Rasmussen, H. D. John, T. J. E. Miller, M. I. McGilp, and O. Mircea, “Analytical and numerical computation of air-gap magnetic field in brushless motors with surface permanent magnet,” IEEE Trans.
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Magnet Shape Optimization to Reduce Pulsating Torque for a Five-Phase Permanent-Magnet Low-Speed Machine
[15] K. Rasmussen, J. Davies, T. Miller, M. McGelp, and M. Olaru, “Analytical and numerical computation of air-gap magnetic fields in brushless motors with surface permanent magnets,” IEEE Trans.