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BĂŒrsten- und nutenloser DC-Motor der Ultra-EC-Baureihe

35ECS80 Ultra EC - BĂŒrsten- und nutenloser DC-Motor der Ultra-EC-Baureihe

35ECS80 Ultra EC

Als Teil unserer nutenfreien, bĂŒrstenlosen Ultra-EC-Motoren wurde das Design der Hochleistungsmotoren der ECS-Serie optimiert, um extrem anspruchsvolle repetitive Arbeitszyklen zu unterstĂŒtzen. Der 2-polige, bĂŒrstenlose Motor 35ECS80 bietet hohe Dauer- und Spitzendrehzahlen bei Niedrigspannung und garantiert dabei eine reibungslose Funktionsweise und lange Lebensdauer. Mit dem 35ECS80 erzielen Sie das richtige VerhĂ€ltnis zwischen hoher Drehzahl und hohem Drehmoment in einem kompakten, kurzen GehĂ€use. Noch stĂ€rker ist die AnpassungsfĂ€higkeit des 35ECS80 fĂŒr die meisten Anwendungen auf den Elektrohandwerkzeug- und IndustriemĂ€rkten bei gleichzeitiger Erhöhung von Lebensdauer und ZuverlĂ€ssigkeit.

Motor Highlights

  • 2-polig, nutenfrei

  • Mit digitalen Hall-Sensoren

  • 2 StandardlĂ€ngen erhĂ€ltlich

  • Erzielen Sie Ă€hnliche oder höhere Drehmomente als mit DC-Motoren – bei viel höherer Lebensdauer

  • Branchenbeste Drehzahl- und Drehmomentleistung fĂŒr BLDC-Motoren dieser GrĂ¶ĂŸe in 2-poliger AusfĂŒhrung

  • Optimiertes WĂ€rmeverhalten bei repetitiven Zyklen mit hoher Spitzenlast

  • Integrierter Temperatursensor

  • Lasergeschweißter Vorderflansch

  • EncoderfĂ€higkeiten: Magnetisch, Absolut Digital, Sinus-/Cosinus-Optionen

Kundenspezifische Lösungen

  • Steckverbinder
  • Verschiedene Spulenimpedanzen
  • WellenlĂ€ngen & Ø (bis zu 7 mm Außendurchmesser)
  • Mechanische Integration auf Anfrage (GehĂ€use, Vorder- und Hinterflansch)
  • Ohne Hall-Sensoren

Anwendungen

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Technische Daten + Details
Downloads
Metrisch Englisch
Winding{%|%}unit 35ECS80 10B 8 35ECS80 10B 11 35ECS80 10B 14
Diameter{%|%}in 1.38 1.38 1.38
Diameter{%|%}mm 35 35 35
Length{%|%}in 3.15 3.15 3.15
Length{%|%}mm 80.00 80.00 80.00
Nominal Voltage{%|%}Volt 24.0 36.0 48.0
Optimization Speed
No-Load Speed{%|%}rpm 27,000 29,500 31,100
Typical No-Load Current{%|%}mA 700 550 430
Max continuous mechanical power (@ 25°C){%|%}W 330.0 330.0 330.0
Max continuous Current{%|%}A 22.6 16.4 12.9
Max Continuous Torque{%|%}mNm 193.40 193.10 193.10
Max Continuous Torque{%|%}oz-in 27.39 27.34 27.34
Terminal Resistance{%|%}Ω
Output Power{%|%}W
Stall Torque{%|%}oz-in
Stall Torque{%|%}mNm
Efficiency{%|%}%
Speeds up to{%|%}rpm
Torque up to{%|%}oz-in
Torque up to{%|%}mNm
Current up to{%|%}thermal limits
Back-EMF Constant{%|%}V/1000 rpm 0.90 1.23 1.57
Torque Constant{%|%}mNm/A 8.56 11.78 14.98
Torque Constant{%|%}oz-in/A 1.21 1.67 2.12
Motor Regulation R/kÂČ{%|%}10Âł/Nms
Motor Constant k/Rœ{%|%}mNm/Wœ 52.2 52.1 52.1
Motor constant k/Rœ{%|%}oz-in/Wœ 7.39 7.38 7.38
Internal resistance - phase to phase{%|%}Ω 0.03 0.05 0.08
Line to Line resistance at connectors{%|%}Ω 0.04 0.06 0.09
Inductance - phase to phase{%|%}mH 0.02 0.03 0.05
Friction Torque{%|%}onz-in
Friction Torque{%|%}mNm
Rotor Inductance (mH)
Mechanical Time Constant{%|%}ms 1.2 1.2 1.2
Electrical time constant{%|%}ms 0.40 0.60 0.50
Max motor speed{%|%}rpm 40,000 40,000 40,000
Ambient working temperature range{%|%}°C -30 to + 100 -30 to + 100 -30 to + 100
Ambient working temperature range{%|%}°F -22 to + 212 -22 to + 212 -22 to + 212
Ambient storage temperature range{%|%}°C -40 to + 100 -40 to + 100 -40 to + 100
Ambient storage temperature range{%|%}°F -40 to + 212 -40 to + 212 -40 to + 212
Ball bearings preload{%|%}N 9.0 9.0 9.0
Axial static force without shaft support{%|%}N 134 134 134
Max Winding Temperature{%|%}°C
Max winding temperature{%|%}°C 150 150 150
Max Winding Temperature{%|%}°F
Max winding temperature{%|%}°F 302 302 150
Thermal Resistance{%|%}°C/W 0.7/5.4 0.7/5.4 0.7/5.4
Thermal Time Constant{%|%}s 1822 1822 1822
Operating Temperature Range{%|%}°F
Weight{%|%}oz 15.52 15.52 15.52
Weight{%|%}g 440 440 440
Rotor Inertia{%|%}gcmÂČ
Rotor Inertia{%|%}gcmÂČ 33.0 33.0 33.0
Typical Housing Material Stainless steel Stainless steel Stainless steel
Hall Sensor Elecrical Phasing{%|%}electrical ° 120 120 120
Absolute accuracy 2 ph. On, Full step mode (degree)
Bearing Type
Detent Torque, Max (mNm)
Detent Torque, Max (oz-in)
Dielectric Withstanding Voltage (VAC)
Holding Torque, MIN (mNm)
Holding Torque, MIN (oz-in)
Inductance per Phase, typ (mH)
Insulation Resistance at 500 VDC (Mohms)
Leadwire
Maximum Coil Temperature (C)
Maximum Coil Temperature (F)
Operating Voltage (VDC)
Rated Current per Phase, 1 Phase ON (A)
Resistance per Phase, ± 10%{%|%}Ohms
Rotor Inertia{%|%}oz-in-secÂČ10^-6
Continuous Stall Current{%|%}A
Peak Torque for 1s{%|%}mNm
Peak Torque for 1s{%|%}oz-in
Peak Current{%|%}A
Max Axial Shaft Load (N)
Max Axial Shaft Load (oz)
Max Radial Shaft Load (N)
Max Radial Shaft Load (oz)
Shaft Load Max Axial{%|%}lb
Shaft Load Max Axial{%|%}N
Shaft Load Max Radial{%|%}lb
Shaft Load Max Radial{%|%}N
Steps per Revolution
Back EMF Amplitude (V/ksteps/s)
Nominal Phase Current (1 ph. On) (A)
Nominal Phase Current (2 ph. On) (A)
Angular Acceleration (nominal current)
Axial Shaft Play (”m)
Holding Torque Typical (mNm)
Holding Torque Typical (oz-in)
Holding Torque, 1.5x nominal current (mNm)
Holding Torque, 1.5x nominal current (oz-in)
Natural Resonance Frequency @nominal current (Hz)
Power rate (nominal current) (kW/s)
Radial Shaft Play (”m)
Max. Force* @ .001" (0.0254 mm) / Step (N)
Max. Force* @ .001" (0.0254 mm) / Step (oz)
Max. Force* @ .002" (0.0508 mm) / Step (N)
Max. Force* @ .002" (0.0508 mm) / Step (oz)
Max. Force* @ .004"(0.1016 mm) / Step (N)
Max. Force* @ .004"(0.1016 mm) / Step (oz)
Stroke Length, Typ{%|%}mm
Stroke Length, Typ{%|%}in
Min. Holding Force (Unenergized) @ .0005" (0.0127 mm) / Step{%|%}N
Min. Holding Force (Unenergized) @ .0005" (0.0127 mm) / Step{%|%}oz
Min. Holding Force @ 0.001" (0.0254 mm) / Step (Un-energised) (N)
Min. Holding Force @ 0.001" (0.0254 mm) / Step (Un-energised) (oz)
Min. Holding Force @ 0.002" (0.0508 mm) / Step (Un-energised) (N)
Min. Holding Force @ 0.002" (0.0508 mm) / Step (Un-energised) (oz)
Min. Holding Force (Unenergized) @ 0.003" (0.0762 mm) / Step (Un-energized){%|%}N
Min. Holding Force (Unenergized) @ 0.003" (0.0762 mm) / Step (Un-energized){%|%}oz
Min. Holding Force @ 0.004" (0.1016 mm) / Step (Un-energised) (N)
Min. Holding Force @ 0.004" (0.1016 mm) / Step (Un-energised) (oz)
Min. Holding Force @ rated current @ .0005" (0.0127 mm) / Step{%|%}N
Min. Holding Force @ rated current @ .0005" (0.0127 mm) / Step{%|%}oz
Min. Holding Force @ rated current @ .001" (0.0254 mm) / Step{%|%}N
Min. Holding Force @ rated current @ .001" (0.0254 mm) / Step{%|%}oz
Min. Holding Force @ rated current @ .002" (0.058 mm) / Step{%|%}N
Min. Holding Force @ rated current @ .002" (0.058 mm) / Step{%|%)oz
Min. Holding Force @ rated current @ .003" (0.0762 mm) / Step{%|%}N
Min. Holding Force @ rated current @ .003" (0.0762 mm) / Step{%|%}oz
Min. Holding Force @ rated current @ .004" (0.1016 mm) / Step{%|%}N
Min. Holding Force @ rated current @ .004" (0.1016 mm) / Step{%|%}oz
Number of lines available
Output signal
Supply Current - maxium (mA)
Supply Current - stand-by (ÎŒA)
Supply Current - typical (mA)
Supply Voltage (V)
Direction of rotation ( = / ≠)
Max. Recommended Input Speed (rpm)
Number of gear stages
Number of lines available
Type of encoder
Linear Travel Accuracy
Input Power (W)
Stepper Type
Gear Ratio
Sterilization Cycles
Prototype Pricing
Document Technology Document Type Language File Type
35ECS80 Specification Page BĂŒrstenlosen DC Spezifikationsseite  
35ECS80 drawing BĂŒrstenlosen DC DXF-Zeichnung  
35ECS80 3D drawing BĂŒrstenlosen DC 3D