Produkte

Scheibenmagnet-Schrittmotoren

PH010 064 - Scheibenmagnet-Schrittmotoren

PH010 064

Der PH010 104 Scheibenmagnet Schrittmotor bietet ausergewöhnlich dynamische Performance, unerreicht von anderen kleinen Schrittmotoren im Markt. Die einzigartig dünne Magnetscheibe ermöglicht sehr kleine Schrittauflösungen in einer vorhandenden Verpackung.

Motor Highlights

  • Präzise - passend für Mikroschrittbetrieb

  • Schnell - Scheibenmagneten ermöglichen schnelle Beschleunigungen und höchste Geschwindigketien die ein Schrittmotor während einer präzisen Positionierung erreichen kann

  • Einmalig - Geringes Rastmoment und indivduell an Kundenwünsche anpassbar

  • Anpassungsfähig - höhere Schrittauflösung als bei ähnlich großen Schrittmotoren

Kundenspezifische Lösungen

  • Gesinterte Kugellager
  • Verschiedene Wicklungen
  • Wellenmodifikationen - verlängern / kürzen, rändeln
  • Änderung der Kabellänge, Stecker
  • Getriebe zur Steigerung des Drehmomentes
  • Enkoder zur Positionierung
  • Spindelwellen

Anwendungen

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Technische Daten + Details
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Metrisch Englisch
Winding{%|%}unit PH010 064 003 02 PH010 064 010 02 PH010 064 020 02
Diameter{%|%}in 0.04 0.04 0.04
Diameter{%|%}mm 10 10 10
Length{%|%}mm
Length{%|%}in
Operating Voltage (VDC)
Resistance per Phase, ± 10%{%|%}Ohms 3.0 10.0 19.0
Inductance per Phase, typ{%|%}mH 1.3 4.2 8.4
Nominal Phase Current, 2 ph. On{%|%}A 0.37 0.20 0.15
Nominal Phase Current, 1 ph. On{%|%}A 0.52 0.28 0.21
Back-EMF Constant{%|%}V/1000 rpm
Back EMF Amplitude{%|%}V/ksteps/s 1.2 2.3 3.0
Holding Torque, MIN (mNm)
Holding Torque, MIN (oz-in)
Holding Torque, Typical{%|%}mNm 2.4 2.4 2.4
Holding Torque, Typical{%|%}oz-in 0.34 0.34 0.34
Holding Torque, 1.5x nominal current{%|%}mNm 3.6 3.6 3.6
Holding Torque, 1.5x nominal current{%|%}oz-in 1.51 0.51 0.51
Detent Torque, Typical{%|%}mNm 1.10 1.10 1.10
Detent Torque, Typical{%|%}oz-in 0.16 0.16 0.16
Rated Current per Phase, 1 Phase ON (A)
Detent Torque, Max (mNm)
Detent Torque, Max (oz-in)
Rotor Inertia{%|%}kgm²10{%SUP%}-7{%/SUP%}
Rotor Inertia{%|%}oz-in-sec²10{%SUP%}-3{%/SUP%} 0.07 0.07 0.07
Nominal Voltage (Volt)
Optimization (rpm)
No-Load Speed (rpm)
No-Load Current (mA)
Max continuous mechanical power (@ 25°C)
Max continuous Current (A)
Max Continuous Torque (mNm)
Max Continuous Torque (oz-in)
Terminal Resistance (W) 100.00 100.00 100.00
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)
Torque Constant (mNm/A)
Torque Constant (oz-in/A)
Motor Regulation R/k² (10³/Nms)
Motor regulation k/R½ (mNm/W)
Motor regulation k/R½ (oz-in/W)
Internal resistance - phase to phase (W)
Line to Line resistance at connectors (Ω)
Inductance - phase to phase (mH)
Friction Torque (onz-in)
Friction Torque (mNm)
Rotor Inductance (mH)
Mechanical Time Constant (ms)
Thermal Time Constant (C/W)
Absolute accuracy 2 ph. On, Full step mode{%|%}% +/- 5% +/- 5% +/- 5%
Steps per Revolution 24 24 24
Ambient Temperature Range (°C)
Operating Temperature Range (°F)
Rotor Operating Temperature Range (°C)
Rotor Operating Temperature Range (°F)
Ambient temperature range (operating){%|%}°C -20 to 55 -20 to 54 -20 to 53
Ambient temperature range (operating){%|%}°F -4 to 127 -4 to 126 -4 to 125
Insulation Resistance at 500 VDC (Mohms)
Leadwire
Max motor speed (rpm)
Ambient storage temperature range (°C)
Ambient storage temperature range (°F)
Ball bearings preload (N)
Axial static force without shaft support (N)
Max winding temperature (C)
Max Winding Temperature (C)
Max Winding Temperature (F)
Max winding temperature (F)
Hall Sensor Elecrical Phasing (degree)
Typical Housing Material
Continuous Stall Current (A)
Peak Torque for 1s (mNm)
Peak Torque for 1s (oz-in)
Peak Current (A)
Shaft Load Max Axial (lb)
Shaft Load Max Axial (N)
Shaft Load Max Radial (lb)
Shaft Load Max Radial (N)
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 (μA)
Supply Current - typical (mA)
Supply Voltage (V)
Direction of rotation ( = / ≠)
Max. Recommended Input Speed (rpm)
Number of gear stages
Number of lines available
Maximum Coil Temperature{%|%}°C 130 130 130
Maximum Coil Temperature{%|%}°F 266 266 266
Thermal Resistance{%|%}°C/W
Natural Resonance Frequency @nominal current{%|%}Hz 276 276 276
Electrical time constant{%|%}ms 0.4 0.4 0.4
Angular Acceleration (nominal current){%|%}rad/s2 343,775 343,775 343,775
Bearing Type Ball Ball Ball
Dielectric Withstanding Voltage{%|%}VAC 505 VRMS for 5 seconds 504 VRMS for 5 seconds 503 VRMS for 5 seconds
Radial Shaft Play{%|%}µm 30@2N 30@2N 30@2N
Axial Shaft Play{%|%}µm 40@2N 40@2N 40@2N
Max Radial Shaft Load{%|%}oz 2.5 2.5 2.5
Max Radial Shaft Load{%|%}N 9 9 9
Max Axial Shaft Load{%|%}oz 9 9 9
Max Axial Shaft Load{%|%}N 2.5 2.5 2.5
Weight{%|%}g 9.0 9.0 9.0
Weight{%|%}oz 0.3 0.3 0.3
Type of encoder
Power rate, nominal current{%|%}kW/s 0.5 0.5 0.5
Linear Travel Accuracy 15 15 15
Input Power (W)
Stepper Type
Document Technology Document Type Language File Type
PH010 064 drawing Scheibenmagnet-Schrittmotor DXF-Zeichnung  
PH010 064 Specification Sheet Scheibenmagnet-Schrittmotor Spezifikationsseite  
PH010 064 3D Drawing Scheibenmagnet-Schrittmotor 3D