12G88-215E.1001 Portescap Danaher Motion US LLC, 12G88-215E.1001 Datasheet
12G88-215E.1001
Specifications of 12G88-215E.1001
Related parts for 12G88-215E.1001
12G88-215E.1001 Summary of contents
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BRUSH DC motoRS Brush DC 8mm Your miniature motion challenges are unique and your ideas for meeting those challenges are equally unique. From medical to aerospace or security and access, Portescap’s brush DC motion solutions are moving life forward worldwide ...
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Why a Brush DC motor Select Either Sleeve or Ball Bearings optional Gearboxes and magnetic or optical Encoders Are Easily Added Innovation & Performance Portescap’s brush DC coreless motors incorporate salient features like low moment of inertia, no cogging, low ...
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SPOTLIGHT ON INNOVATION Innovation is a passion at Portescap. It defines your success, and defines our future. We help you get the right products to market faster, through rapid prototyping and collaborative engineering. With experienced R&D and application engineering teams ...
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Brush DC motor Basics Construction of Portescap motors with iron less rotor DC motors All DC motors, including the ironless rotor motors, are composed of three principle sub assemblies: 1. Stator 2. Brush Holder Endcap 3. Rotor Self Supporting High ...
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B — A method which avoids these coil heads uses an armature wire that is covered with an outer layer of plastic for adhesion, and is wound on a mobile lozenge-shaped support. Later, the support is removed, and a flat ...
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Features of Ironless Rotor DC motors The rotor of a conventional iron core DC motor is made of copper wire which is wound around the poles of its iron core. Designing the rotor in this manner has the following results: ...
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Brush DC Working Principles The electromechanical properties of motors with ironless rotors can be described by means of the following equations: 1. The power supply voltage U is equal to 0 the sum of the voltage drop produced by the ...
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Brush DC Working Principles through the effect of the rotor current, particularly in the event of slow or repeated starting. The torque M produced by the d starting-current I is obtained as follows ...
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How to select your Coreless motor PRODUCT RANGE CHART FRAME SIZE mNm (Oz-in) Max Continuous Torque Motor Regulation R/K 10 /Nms 2 3 Rotor Inertia Kgm 10 2 mNm (Oz-in) Max Continuous Torque Motor Regulation R/K 10 /Nms 2 3 ...
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Explanation of Specifications MOTOR PART NUMBER MEASURING VOLTAGE V NO LOAD SPEED rpm STALL TORQUE mNm (oz-in) AVERAGE NO LOAD CURRENT mA TYPICAL STARTING VOLTAGE V MAx RECOMMENDED VALUES MAX CONT CURRENT A MAX CONT TORQUE mNm (oz-in ...
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Applications mEDICAL • Powered surgical instruments • Dental hand tools Benefits: Reduced footprint analyzers with high efficiency & precision sample positioning SECURItY & ACCESS • Security cameras • Locks Benefits: Low Noise & Vibration, High Power & Superior ...
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Brush DC motors at Work mEDICAL ANALYZERS Portescap solves multiple application needs in analyzers, from sample draw on assays to rapid scanning and detection of molecular mechanisms in liquids and gases, with its coreless brush dc motors. For high throughput ...
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Miniature Motors Notes 61 ...
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Precious Metal Commutation System - 5 Segments dimensions in mm mass: 3.8 g Winding Type Measured Values Measuring voltage V rpm No-load speed Stall torque mNm (oz-in) Average No-load current mA Typical starting voltage V Max. Recommended Values A Max. ...
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Watt 0 4,5 -0,1 0,5 1,55 dimensions in mm mass: 4.5 g Winding Type Measured Values Measuring voltage No-load speed Stall torque Average No-load current Typical starting voltage Max. Recommended Values Max. continuous current Max. continuous torque Max. angular ...
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... Rotor inertia kgm 2 Mechanical time constant ms Executions Single Shaft With MR2 Gearbox Page 12G88 12G88 R10 234 1003 1005 R13 235 1002 1004 64 12G88 1 215E 4.5 8670 6.8 (0.96) 16 0.3 0.75 3.68 (0.52) 552 2 0.51 4.9 (0.69) 3.2 133 0.07 10 0.29 -7 3.9 • ...
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Watt dimensions in mm mass Winding Type Measured Values Measuring voltage No-load speed Stall torque Average No-load current Typical starting voltage Max. Recommended Values Max. continuous current Max. continuous torque Max. angular acceleration Intrinsic Parameters Back-EMF constant ...
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Precious Metal Commutation System - 5 Segments 10 M 1,6 x1,4 max. 3,7 2 dimensions in mm 16C18 mass Winding Type Measured Values Measuring voltage V No-load speed rpm mNm (oz-in) Stall torque Average No-load current mA V ...
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Watt Max screw torque 40mNm Max traction 230N 10 M 1,6 x 2,5 max. dimensions in mm mass Winding Type Measured Values Measuring voltage V No-load speed rpm mNm (oz-in) Stall torque Average No-load current mA V Typical starting voltage Max. Recommended Values ...
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Precious Metal Commutation System - 9 Segments Max screw torque 40mNm Max traction 230N 10 M 1,6 x 2,5 max. dimensions in mm mass Winding Type Measured Values Measuring voltage V No-load speed rpm mNm (oz-in) Stall torque Average No-load current mA V ...
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Watt Max screw torque 40 mNm Max traction 230 1,6 x2,8 max. ° dimensions in mm mass Winding Type Measured Values Measuring voltage V No-load speed rpm mNm (oz-in) Stall torque Average No-load current mA V Typical starting voltage Max. Recommended Values ...
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Precious Metal Commutation System - 9 Segments Max traction force: 130 N Max screw torque: 50 mNm dimensions in mm mass Winding Type Measured Values Measuring voltage V No-load speed rpm Stall torque mNm Average No-load current mA Typical starting voltage V Max. Recomended ...
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Watt 10 M 1,6 x 1,5 max. dimensions in mm mass Winding Type Measured Values Measuring voltage No-load speed Stall torque Average No-load current Typical starting voltage Max. Recommended Values Max. continuous current Max. continuous torque Max. ...
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Precious Metal Commutation System - 9 Segments 10 M 1,6 x 1,5 max. dimensions in mm mass Winding Type Measured Values Measuring voltage V No-load speed rpm mNm (oz-in) Stall torque Average No-load current mA V Typical starting ...
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Watt Ø max. 2 dimensions in mm mass Winding Type Measured Values V Measuring voltage No-load speed rpm mNm (oz-in) Stall torque Average No-load current mA Typical starting voltage V Max. Recommended Values Max. continuous ...
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Precious Metal Commutation System - 9 Segments dimensions in mm mass Winding Type Measured Values V Measuring voltage No-load speed rpm mNm (oz-in) Stall torque Average No-load current mA Typical starting voltage V Max. Recommended Values Max. continuous ...
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Watt Max screw torque 130 mNm Max traction 300N ÷ max. 1 5,5 32 dimensions in mm 22N28 mass Winding Type Measured Values V Measuring voltage No-load speed rpm mNm (oz-in) Stall torque Average No-load current mA 1) ...
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Precious Metal Commutation System - 9 Segments Max screw torque 130 mNm Max traction 300N dimensions in mm 22V28 mass Winding Type Measured Values Measuring voltage V No-load speed rpm Stall torque mNm (oz-in) mA Average No-load current 1) Typical starting voltage V 1) ...
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Watt Max traction force: 300 N Max screw torque: 130 mNm dimensions in mm mass 22N78 Winding Type Measured Values Measuring voltage V No-load speed rpm Stall torque mNm Average No-load current mA Typical starting voltage V Max. Recomended Values Max. continuous current A Max. ...
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Precious Metal Commutation System - 9 Segments 17 M x2,2 2 dimensions in mm mass Winding Type Measured Values Measuring voltage V rpm No-load speed Stall torque mNm (oz-in) Average No-load current mA Typical starting voltage V Max. ...
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Watt dimensions in mm mass Winding Type Measured Values Measuring voltage No-load speed Stall torque Average No-load current Typical starting voltage Max. Recommended Values Max. continuous current Max. continuous torque Max. angular acceleration Intrinsic Parameters Back-EMF constant ...
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Precious Metal Commutation System - 9 Segments ÷ 2,3max. 2 2,7 1,8 1,5 3,2 48,8 dimensions in mm 23V58 mass: 100 g Winding Type Measured Values Measuring voltage V rpm No-load speed Stall torque ...
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Watt 23GST .1 ÷ 2,2 max dimensions in mm 23GST2R82 mass Winding Type Measured Values Measuring voltage No-load speed Stall torque Average No-load current Typical starting voltage Max. Recommended Values ...
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Precious Metal Commutation System - 9 Segments dimensions in mm mass: 184 g Winding Type Measured Values Measuring voltage V rpm No-load speed Stall torque mNm (oz-in) Average No-load current mA Typical starting voltage V Max. Recommended Values A Max. ...
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Watt ÷ 2,7 max. 2 5,5 0,7 dimensions in mm 25GST2R82 mass: 111 g Winding Type Measured Values V Measuring voltage No-load speed rpm Stall torque mNm (oz-in) Average No-load current mA 1) Typical starting voltage V 1) ...
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Graphite/Copper Communication System - 9 Segments ÷ 3,3 max. 3 0,7 3 5,5 53,45 dimensions in mm 25GT2R82 mass: 145 g Winding Type Measured Values Measuring voltage V No-load speed rpm mNm (oz-in) Stall torque Average No-load current Typical ...
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Watt ÷ 2,3 max. 2 1,8 2,7 1,5 3,2 43,3 12,5 dimensions in mm 26N58 mass: 114 g Winding Type Measured Values V Measuring voltage No-load speed rpm mNm (oz-in) Stall torque Average No-load current mA Typical ...
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Precious Metal Commutation System - 9 Segments ÷ 3,6 max 43,5 dimensions in mm mass: 125 g Winding Type Measured Values Measuring voltage V rpm No-load speed Stall torque mNm (oz-in) Average No-load current ...
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Watt ° dimensions in mm 28LT12 mass: 135 g Winding Type Measured Values Measuring voltage No-load speed Stall torque Average No-load current Typical starting voltage Max. Recommended Values Max. continuous current Max. continuous torque Max. angular acceleration Intrinsic Parameters ...
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Precious Metal Commutation System - 13 Segments ° dimensions in mm mass: 190 g Winding Type Measured Values Measuring voltage V No-load speed rpm mNm (oz-in) Stall torque Average No-load current mA V Typical starting voltage Max. Recommended Values Max. ...
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Watt ° dimensions in mm 28DT12 mass: 200 g Winding Type Measured Values Measuring voltage No-load speed Stall torque Average No-load current Typical starting voltage Max. Recommended Values Max. continuous current Max. continuous torque Max. angular acceleration Intrinsic Parameters ...
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Precious Metal Commutation System - 9 Segments dimensions in mm 28HL mass: 125 g Winding Type Measured Values Measuring voltage V rpm No-load speed Stall torque mNm (oz-in) Average No-load current mA Typical starting voltage V Max. Recommended Values A ...
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Watt dimensions in mm mass: 310 g Winding Type Measured Values Measuring voltage No-load speed Stall torque Average No-load current Typical starting voltage Max. Recommended Values Max. continuous current Max. continuous torque Max. angular acceleration Intrinsic Parameters Back-EMF constant ...
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Graphite/Copper Commutation System - 13 Segments scale: 3:4 dimensions in mm 35NT2R32 mass: 310 g Winding Type Measured Values V Measuring voltage No-load speed rpm Stall torque mNm (oz-in) Average No-load current mA Typical starting voltage V Max. Recommended Values Max. continuous current A Max. ...
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Watt scale: 3:4 dimensions in mm mass: 310 g Winding Type Measured Values Measuring voltage No-load speed Stall torque Average No-load current Typical starting voltage Max. Recommended Values Max. continuous current Max. continuous torque Max. angular acceleration Intrinsic Parameters ...
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Graphite/Copper Commutation System - 13 Segments scale: 3:4 dimensions in mm mass: 415 g Winding Type Measured Values V Measuring voltage No-load speed rpm Stall torque mNm (oz-in) Average No-load current mA Typical starting voltage V Max. Recommended Values Max. continuous current A Max. continuous ...
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Watt scale: 3:4 dimensions in mm mass: 360g Winding Type Measured Values Measuring voltage V No-load speed rpm Stall torque mNm Average No-load current mA Typical starting voltage V Max. Recomended Values Max. continuous current A Max. continuous torque ...
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Notes 96 www.portescap.com ...