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You are Here: Linear Actuator Products > Stepper Motor Linear Actuators > Linear Actuators - Canstack > 37000 Linear Actuator Thursday, September 02, 2010
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CHARACTERISTICS TECHNICAL DIAGRAMS PERFORMANCE CURVES 3D MODEL

G4 37000 SERIES 35mm (1.4") STEPPER MOTOR LINEAR ACTUATOR

Robust and Powerful...These 2 simple words describe the Haydon™ G4 Series can-stacks from Haydon Kerk Motion Solutions.  The 37000 Series is a 35mm stepper motor linear actuator in the G4 line of products that leverages the same improvements in the recently released 25mm size.   

The G4 35mm stepper motor linear actuator provides an exceptionally high linear force-to-size ratio and is ideal for precision linear motion in a variety of applications including medical equipment, bar code scanning devices, printing equipment, laboratory instrumentation, and other mechanisms requiring high force and extreme durability from a small linear actuator package.

Standard motors are Class B rated for maximum temperature of 130°C.

Part Number Selection Guide

 
Captive Non-Captive External
Can Stack 37mm Captive Stepper Motor Linear Actuator
Can Stack 37mm Non-Captive Stepper Motor Linear Actuator
Can Stack 37mm External Stepper Motor Linear Actuator
» Technical Drawing
 Download 2D/3D Model
» Technical Drawing
 Download 2D/3D Model

SALIENT CHARACTERISTICS - G4 37000 SERIES

 

STEPPER MOTOR LINEAR ACTUATOR 35mm (1.4") 37000 SERIES

Part Number

 Captive     3744(X)-V   3754(X)-V
   Non-Captive               

               3734(X)-V

   3784(X)-V  
  External     E3744(X)-V   E3754(X)-V  
Wiring Bipolar 
Step Angle 7.5° 15°  
Operating Voltage 5 VDC 12 VDC 5VDC         12 VDC    
Current / Phase 561 mA 230 mA 561mA 230 mA    
Resistance / Phase 8.9 Ω 52 Ω 8.9 Ω 52 Ω    
Inductance / Phase 11.6 mH 65 mH 8.5 mH 46 mH    
Power Consumption 5.6 W
Rotor Inertia 8.5 gcm2
Temperature rise 135° F (75°C) Rise
Weight 4.2 oz. (120g)
Insulation resistance 20M ohms

LINEAR TRAVEL STEP - G4 37000 SERIES

 
Step Angle Inches/Step      mm/Step Order Code ID
7.5°      0.0005         0.013         3
7.5°      0.001         0.025         1
7.5°      0.002         0.051         2
15°      0.001         0.025         1
15°      0.002         0.051         2
15°      0.004         0.102         4

 
DIMENSIONAL DRAWING - G4 37000 SERIES - CAPTIVE STEPPER MOTOR LINEAR ACTUATOR

G437mm Captive Stepper Motor Linear Actuator
DIMENSIONAL DRAWING - G4 37000 SERIES - NON CAPTIVE STEPPER MOTOR LINEAR ACTUATOR

G437mm Non-Captive Stepper Motor Linear Actuator
DIMENSIONAL DRAWING - G4 37000 SERIES - EXTERNAL STEPPER MOTOR LINEAR ACTUATOR

G437mm External Stepper Motor Linear Actuator

 

Stepper Motor Linear Actuator G437 Connector 
PERFORMANCE CURVES - G4 37000 SERIES - STEPPER MOTOR LINEAR ACTUATOR THRUST vs. FULL STEP/SECOND
 

BIPOLAR L/R DRIVE 100% DUTY CYCLE

G437 Stepper Motor Linear Actuator Force Curve

BIPOLAR L/R DRIVE 25% DUTY CYCLE

25% Duty cycle is obtained by a special winding or by running a standard motor at double the rated voltage.

G437 Stepper Motor Linear Actuator Force Curve

NOTE: Ramping can increase the performance of a motor either by increasing the top speed or getting a heavier load accelerated up to speed faster. Also, deceleration can be used to stop the motor without overshoot.

 
PERFORMANCE CURVES - G4 37000 SERIES - STEPPER MOTOR LINEAR ACTUATOR THRUST vs. FULL STEP/SECOND
 

BIPOLAR CHOPPER DRIVE 100% DUTY CYCLE

G437 Stepper Motor Linera Actuator Force Curve

BIPOLAR CHOPPER DRIVE 25% DUTY CYCLE

25% Duty cycle is obtained by a special winding or by running a standard motor at double the rated current.

G437 Stepper Motor Linear Acuator Force Curve

NOTE: All chopper drive curves were created with a 5 Volt motor and a 40 Volt power supply.

Ramping can increase the performance of a motor either by increasing the top speed or getting a heavier load accelerated up to speed faster. Also, deceleration can be used to stop the motor without overshoot.

 

 

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