Part Number Construction
 
Newsletter Sign Up
Submit
Questions?  Call 800-243-2715
Site Map  |  Catalog  |  RSS  
  
Minimize
Related Companies
CHARACTERISTICS TECHNICAL DIAGRAMS PERFORMANCE CURVES 3D MODEL

Z26000 SERIES EXTENDED STROKE LINEAR ACTUATORS
 

3 Specially engineered Z26000 linear actuators that extend captive lead screw travel beyond the standard 1/2" (12.7mm)

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

Part Number Selection Guide

 
18 mm (.708”) 25 mm (.984”) 31 mm (1.22”)

 

SALIENT CHARACTERISTICS - SERIES Z26000

 

LINEAR ACTUATOR 26mm (1") Z26000 SERIES
Part No Captive Z2644X-V Z2654X-V Z2646X-V Z2656X-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 340 mA 140 mA 340 mA 140 mA 340 mA 140 mA 340 mA 140 mA
Resistance / Phase 14.7 Ω 84 Ω 14.7 Ω 84 Ω 14.7 Ω 84 Ω 14.7 Ω 84 Ω
Inductance / Phase 8.5 mH 55 mH 6.7 mH 44mH 4.3 mH 24 mH 3.4 mH 19 mH
Power Consumption 3.4 W
Rotor Inertia 1.4 gcm2
Temperature rise 135° F (75°C) Rise
Weight 1.2 oz. ( 34 g)
Insulation resistance 20M ohms

*Special drive considerations may be necessary when leaving shaft fully extended or fully retracted.
**Unipolar drive gives approximately 30% less thrust than bipolar drive.
LINEAR TRAVEL STEP - SERIES Z26000

 

Step Angle Inches/Step mm/Step Order Code ID
7.5° 0.0005 0.013 3
7.5° 0.001 0.0254 1
7.5° 0.002 0.051 2
15° 0.00164 0.04166 AS
15° 0.002 0.051 2
15° 0.004 0.102 4
 

DIMENSIONAL DRAWING - Z26000 SERIES EXTENDED SHAFT

CAPTIVE SHAFT

Captive Shaft
PERFORMANCE CURVES - SERIES Z26000 EXTENDED - THRUST vs. FULL STEPS/SECOND
 

BIPOLAR L/R DRIVE 100% DUTY CYCLE

Stepper Motor Linear Actuator

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 - SERIES Z26000 EXTENDED - 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 voltage
 

 

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.