26M

26M

The 26M is a 7.5 degree step angle can stack that can provide up to 14.5 mNm of holding torque in a 26 mm frame size in the Neodymium magnet version. The 48 steps per revolution allows for more refined positioning resolution. Motor Highlights - Operating voltage 5 V or 12 V - Excellent open loop control - no encoder necessary - Digitally controlled - easy to use with a micro processor - Cost effective - compact design, lower integration cost - Available with both unipolar and bipolar winding - Available with Ferrite magnet

Details

Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 1
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 1,34
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 7,8
Inductance per Phase, typ mH 7,7
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 5
Rated Current per Phase A 0,25
Step Angle degree 15
Steps per Revolution 24
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34
Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 1
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 1,34
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 6,3
Inductance per Phase, typ mH 4,1
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 5
Rated Current per Phase A 0,26
Step Angle degree 15
Steps per Revolution 24
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34
Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 1
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 1,34
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 7,8
Inductance per Phase, typ mH 52,4
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 12
Rated Current per Phase A 0,11
Step Angle degree 15
Steps per Revolution 24
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34
Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 1
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 1,34
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 6,3
Inductance per Phase, typ mH 29,9
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 12
Rated Current per Phase A 0,11
Step Angle degree 15
Steps per Revolution 24
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34

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Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 1
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 4,2
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 12
Inductance per Phase, typ mH 9
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 5
Rated Current per Phase A 0,25
Step Angle degree 15
Steps per Revolution 24
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34
Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 1
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 4,2
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 9,5
Inductance per Phase, typ mH 3,8
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 5
Rated Current per Phase A 0,26
Step Angle degree 15
Steps per Revolution 24
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34
Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 1
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 4,2
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 12
Inductance per Phase, typ mH 44,3
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 12
Rated Current per Phase A 0,11
Step Angle degree 15
Steps per Revolution 24
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34
Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 1
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 4,2
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 9,5
Inductance per Phase, typ mH 26,6
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 12
Rated Current per Phase A 0,11
Step Angle degree 15
Steps per Revolution 24
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34
Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 0.5
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 0,85
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 10,6
Inductance per Phase, typ mH 13
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 5
Rated Current per Phase A 0,25
Step Angle degree 7,5
Steps per Revolution 48
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34
Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 0.5
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 0,85
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 9,2
Inductance per Phase, typ mH 5,3
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 5
Rated Current per Phase A 0,26
Step Angle degree 7,5
Steps per Revolution 48
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34

This product is available on the E-SHOP Visit to our e-shop

Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 0.5
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 0,85
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 10,6
Inductance per Phase, typ mH 60,7
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 12
Rated Current per Phase A 0,11
Step Angle degree 7,5
Steps per Revolution 48
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34
Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 0.5
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 0,85
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 9,2
Inductance per Phase, typ mH 36,5
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 12
Rated Current per Phase A 0,11
Step Angle degree 7,5
Steps per Revolution 48
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34
Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 0.5
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 4,2
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 14,5
Inductance per Phase, typ mH 12
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 5
Rated Current per Phase A 0,25
Step Angle degree 7,5
Steps per Revolution 48
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34
Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 0.5
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 4,2
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 11,5
Inductance per Phase, typ mH 4,9
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 5
Rated Current per Phase A 0,26
Step Angle degree 7,5
Steps per Revolution 48
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34
Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 0.5
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 4,2
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 14,5
Inductance per Phase, typ mH 55
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 12
Rated Current per Phase A 0,11
Step Angle degree 7,5
Steps per Revolution 48
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34
Feature Unit Value
Diameter mm 26
Absolute accuracy 2 ph. On, Full step mode % ± 0.5
Bearing Type Sintered Bronze Sleeve
Detent Torque, Max mNm 4,2
Dielectric Withstanding Voltage VAC 650 for 2 seconds
Holding Torque, MIN mNm 11,5
Inductance per Phase, typ mH 33
Leadwire AWG 28, UL 1429
Maximum Coil Temperature °C 130
Operating Voltage (VDC) V 12
Rated Current per Phase A 0,11
Step Angle degree 7,5
Steps per Revolution 48
Ambient working temperature range °C -20 to +70
Insulation Resistance at 500 VDC 100
Rotor Inertia gcm2 1,1
mass (g) g 34

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