search_button
Search
Print Page  Register Login
You are Here: Linear Actuator Products > Stepper Motor Linear Actuators > Linear Actuators - Canstack > 36000 Linear Actuator Thursday, September 02, 2010
Newsletter Signup
Submit
Latest News

CHARACTERISTICS TECHNICAL DIAGRAMS PERFORMANCE CURVES 3D MODEL

36000 SERIES 36mm (1.4") LINEAR ACTUATOR

Higher thrust and torque... more versatility and greater durability

Other styles available...
High Resolution Series
Teflon®lead-screw
High Temperature Option

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

Part Number Selection Guide

 
Captive Non-Captive External
» Technical Drawing
Download 2D/3D Model
» Technical Drawing
Download 2D/3D Model

SALIENT CHARACTERISTICS - 36000 SERIES

 

LINEAR ACTUATOR 36mm (1.4") 36000 SERIES
Part Number Captive 3644(X)-V 3654(X)-V 3646(X)-V 3656(X)-V
  Non-Captive 3634(X)-V 3684(X)-V 3636(X)-V 3686(X)-V
  External E3644(X)-V E3654(X)-V E3646(X)-V E3656(X)-V
Wiring Bipolar Unipolar**
Step Angle 7.5° 15° 7.5° 15°
Operating Voltage 5 VDC 12 VDC 5VDC 12 VDC 5 VDC 12 VDC 5 VDC 12 VDC
Current / Phase 460 mA 190 mA 460 mA 190 mA 460 mA 190 mA 460 mA 190 mA
Resistance / Phase 11 Ω 63 Ω 11 Ω 63 Ω 11 Ω 63 Ω 11 Ω 63 Ω
Inductance / Phase 7.2 mH 45 mH 5.5 mH 35 mH 3.8 mH 19 mH 3 mH 15 mH
Power Consumption 4.6 W
Rotor Inertia 10.5 gcm2
Temperature rise 135° F (75°C) Rise
Weight 3 oz. ( 86 g)
Insulation resistance 20M ohms

LINEAR TRAVEL STEP - 36000 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°      0.002         0.051         2
15°      0.004         0.102         4

 
DIMENSIONAL DRAWING - 36000 SERIES

Captive Shaft
DIMENSIONAL DRAWING - 36000 SERIES

Non-Captive
DIMENSIONAL DRAWING - 36000 SERIES

External
PERFORMANCE CURVES - 36000 SERIES - THRUST vs. FULL STEP/SECOND
 

BIPOLAR L/R DRIVE 100% DUTY CYCLE

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.

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 - 36000 SERIES - THRUST vs. FULL STEP/SECOND
 

BIPOLAR CHOPPER DRIVE 100% DUTY CYCLE

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.

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.

 

1500 Meriden Road Waterbury, CT 06705 · Tel: 203-756-7441 · Fax: 203-756-8724 · Toll Free: 800-243-2715
Dot Net Nuke Site Designed By Progressive Scale and Software Solutions