Career Press Suppliers
Career Press Suppliers

DC-Micromotors Series 2233 ... S

Precious Metal Commutation

Key Features
Nominal voltage:
4.5 ... 30 V
Rated torque up to:
5.9 mNm
No-load speed up to:
9000 min⁻¹
Stall torque up to:
20.2 mNm
Diameter:
22 mm
Length:
32.6 mm
Advantages
Powerful magnets
Wide operating temperature range
All-steel housing with corrosion-resistant coating
No cogging torque, highly dynamic performance, precise speed control
Low current and starting voltage
Extremely compact and lightweight design
Variants:
Series 2233T4.5S
UN : Nominal voltage : 4.5 V |MN : Rated torque up to : 3.4 mNm |n0 : No-load speed up to : 8500 min⁻¹ |MH : Stall torque up to : 20.2 mNm |Ø : Diameter : 22 mm |L : Length : 32.6 mm
Series 2233T006S
UN : Nominal voltage : 6 V |MN : Rated torque up to : 5 mNm |n0 : No-load speed up to : 7700 min⁻¹ |MH : Stall torque up to : 16 mNm |Ø : Diameter : 22 mm |L : Length : 32.6 mm
Series 2233T012S
UN : Nominal voltage : 12 V |MN : Rated torque up to : 5.9 mNm |n0 : No-load speed up to : 8200 min⁻¹ |MH : Stall torque up to : 17.3 mNm |Ø : Diameter : 22 mm |L : Length : 32.6 mm
Series 2233T018S
UN : Nominal voltage : 18 V |MN : Rated torque up to : 4.9 mNm |n0 : No-load speed up to : 9000 min⁻¹ |MH : Stall torque up to : 13.4 mNm |Ø : Diameter : 22 mm |L : Length : 32.6 mm
Series 2233T024S
UN : Nominal voltage : 24 V |MN : Rated torque up to : 4.9 mNm |n0 : No-load speed up to : 8400 min⁻¹ |MH : Stall torque up to : 12.4 mNm |Ø : Diameter : 22 mm |L : Length : 32.6 mm
Series 2233T030S
UN : Nominal voltage : 30 V |MN : Rated torque up to : 4.3 mNm |n0 : No-load speed up to : 8700 min⁻¹ |MH : Stall torque up to : 9.9 mNm |Ø : Diameter : 22 mm |L : Length : 32.6 mm

Values at 22° and nominal voltageValue
Nominal voltageUN 4.5 V
Terminal resistanceR 1.2 Ω
Efficiency, max.ηmax. 86 %
No-load speedn0 8500 min⁻¹
No-load currentI0 0.02 A
Stall torqueMH 20.2 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 1895 min⁻¹/V
Back-EMF constantkE 0.528 mV/min⁻¹
Torque constantkM 5.04 mNm/A
Current constantkI 0.198 A/mNm
Slope of n-M curveΔn/ΔM 421 min⁻¹/mNm
Rotor inductanceL 60 µH
Mechanical time constantτm 11.5 ms
Rotor inertiaJ 2.6 gcm²
Angular accelerationαmax. 77 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 4.5 V
Terminal resistanceR 1.2 Ω
Efficiency, max.ηmax. 86 %
No-load speedn0 8500 min⁻¹
No-load currentI0 0.02 A
Stall torqueMH 20.2 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 1895 min⁻¹/V
Back-EMF constantkE 0.528 mV/min⁻¹
Torque constantkM 5.04 mNm/A
Current constantkI 0.198 A/mNm
Slope of n-M curveΔn/ΔM 421 min⁻¹/mNm
Rotor inductanceL 60 µH
Mechanical time constantτm 11.5 ms
Rotor inertiaJ 2.6 gcm²
Angular accelerationαmax. 77 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 4.5 V
Terminal resistanceR 1.2 Ω
Efficiency, max.ηmax. 86 %
No-load speedn0 8500 min⁻¹
No-load currentI0 0.02 A
Stall torqueMH 20.2 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 1895 min⁻¹/V
Back-EMF constantkE 0.528 mV/min⁻¹
Torque constantkM 5.04 mNm/A
Current constantkI 0.198 A/mNm
Slope of n-M curveΔn/ΔM 421 min⁻¹/mNm
Rotor inductanceL 60 µH
Mechanical time constantτm 11.5 ms
Rotor inertiaJ 2.6 gcm²
Angular accelerationαmax. 77 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 4.5 V
Terminal resistanceR 1.2 Ω
Efficiency, max.ηmax. 86 %
No-load speedn0 8500 min⁻¹
No-load currentI0 0.02 A
Stall torqueMH 20.2 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 1895 min⁻¹/V
Back-EMF constantkE 0.528 mV/min⁻¹
Torque constantkM 5.04 mNm/A
Current constantkI 0.198 A/mNm
Slope of n-M curveΔn/ΔM 421 min⁻¹/mNm
Rotor inductanceL 60 µH
Mechanical time constantτm 11.5 ms
Rotor inertiaJ 2.6 gcm²
Angular accelerationαmax. 77 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 4.5 V
Terminal resistanceR 1.2 Ω
Efficiency, max.ηmax. 86 %
No-load speedn0 8500 min⁻¹
No-load currentI0 0.02 A
Stall torqueMH 20.2 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 1895 min⁻¹/V
Back-EMF constantkE 0.528 mV/min⁻¹
Torque constantkM 5.04 mNm/A
Current constantkI 0.198 A/mNm
Slope of n-M curveΔn/ΔM 421 min⁻¹/mNm
Rotor inductanceL 60 µH
Mechanical time constantτm 11.5 ms
Rotor inertiaJ 2.6 gcm²
Angular accelerationαmax. 77 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 4.5 V
Terminal resistanceR 1.2 Ω
Efficiency, max.ηmax. 86 %
No-load speedn0 8500 min⁻¹
No-load currentI0 0.02 A
Stall torqueMH 20.2 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 1895 min⁻¹/V
Back-EMF constantkE 0.528 mV/min⁻¹
Torque constantkM 5.04 mNm/A
Current constantkI 0.198 A/mNm
Slope of n-M curveΔn/ΔM 421 min⁻¹/mNm
Rotor inductanceL 60 µH
Mechanical time constantτm 11.5 ms
Rotor inertiaJ 2.6 gcm²
Angular accelerationαmax. 77 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 6 V
Terminal resistanceR 2.7 Ω
Efficiency, max.ηmax. 85 %
No-load speedn0 7700 min⁻¹
No-load currentI0 0.014 A
Stall torqueMH 16 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 1296 min⁻¹/V
Back-EMF constantkE 0.772 mV/min⁻¹
Torque constantkM 7.37 mNm/A
Current constantkI 0.136 A/mNm
Slope of n-M curveΔn/ΔM 483 min⁻¹/mNm
Rotor inductanceL 120 µH
Mechanical time constantτm 10 ms
Rotor inertiaJ 2 gcm²
Angular accelerationαmax. 80 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 6 V
Terminal resistanceR 2.7 Ω
Efficiency, max.ηmax. 85 %
No-load speedn0 7700 min⁻¹
No-load currentI0 0.014 A
Stall torqueMH 16 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 1296 min⁻¹/V
Back-EMF constantkE 0.772 mV/min⁻¹
Torque constantkM 7.37 mNm/A
Current constantkI 0.136 A/mNm
Slope of n-M curveΔn/ΔM 483 min⁻¹/mNm
Rotor inductanceL 120 µH
Mechanical time constantτm 10 ms
Rotor inertiaJ 2 gcm²
Angular accelerationαmax. 80 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 6 V
Terminal resistanceR 2.7 Ω
Efficiency, max.ηmax. 85 %
No-load speedn0 7700 min⁻¹
No-load currentI0 0.014 A
Stall torqueMH 16 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 1296 min⁻¹/V
Back-EMF constantkE 0.772 mV/min⁻¹
Torque constantkM 7.37 mNm/A
Current constantkI 0.136 A/mNm
Slope of n-M curveΔn/ΔM 483 min⁻¹/mNm
Rotor inductanceL 120 µH
Mechanical time constantτm 10 ms
Rotor inertiaJ 2 gcm²
Angular accelerationαmax. 80 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 6 V
Terminal resistanceR 2.7 Ω
Efficiency, max.ηmax. 85 %
No-load speedn0 7700 min⁻¹
No-load currentI0 0.014 A
Stall torqueMH 16 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 1296 min⁻¹/V
Back-EMF constantkE 0.772 mV/min⁻¹
Torque constantkM 7.37 mNm/A
Current constantkI 0.136 A/mNm
Slope of n-M curveΔn/ΔM 483 min⁻¹/mNm
Rotor inductanceL 120 µH
Mechanical time constantτm 10 ms
Rotor inertiaJ 2 gcm²
Angular accelerationαmax. 80 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 6 V
Terminal resistanceR 2.7 Ω
Efficiency, max.ηmax. 85 %
No-load speedn0 7700 min⁻¹
No-load currentI0 0.014 A
Stall torqueMH 16 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 1296 min⁻¹/V
Back-EMF constantkE 0.772 mV/min⁻¹
Torque constantkM 7.37 mNm/A
Current constantkI 0.136 A/mNm
Slope of n-M curveΔn/ΔM 483 min⁻¹/mNm
Rotor inductanceL 120 µH
Mechanical time constantτm 10 ms
Rotor inertiaJ 2 gcm²
Angular accelerationαmax. 80 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 6 V
Terminal resistanceR 2.7 Ω
Efficiency, max.ηmax. 85 %
No-load speedn0 7700 min⁻¹
No-load currentI0 0.014 A
Stall torqueMH 16 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 1296 min⁻¹/V
Back-EMF constantkE 0.772 mV/min⁻¹
Torque constantkM 7.37 mNm/A
Current constantkI 0.136 A/mNm
Slope of n-M curveΔn/ΔM 483 min⁻¹/mNm
Rotor inductanceL 120 µH
Mechanical time constantτm 10 ms
Rotor inertiaJ 2 gcm²
Angular accelerationαmax. 80 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 12 V
Terminal resistanceR 9.6 Ω
Efficiency, max.ηmax. 85 %
No-load speedn0 8200 min⁻¹
No-load currentI0 0.007 A
Stall torqueMH 17.3 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 684 min⁻¹/V
Back-EMF constantkE 1.46 mV/min⁻¹
Torque constantkM 14 mNm/A
Current constantkI 0.072 A/mNm
Slope of n-M curveΔn/ΔM 472 min⁻¹/mNm
Rotor inductanceL 440 µH
Mechanical time constantτm 11 ms
Rotor inertiaJ 2.2 gcm²
Angular accelerationαmax. 78 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 12 V
Terminal resistanceR 9.6 Ω
Efficiency, max.ηmax. 85 %
No-load speedn0 8200 min⁻¹
No-load currentI0 0.007 A
Stall torqueMH 17.3 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 684 min⁻¹/V
Back-EMF constantkE 1.46 mV/min⁻¹
Torque constantkM 14 mNm/A
Current constantkI 0.072 A/mNm
Slope of n-M curveΔn/ΔM 472 min⁻¹/mNm
Rotor inductanceL 440 µH
Mechanical time constantτm 11 ms
Rotor inertiaJ 2.2 gcm²
Angular accelerationαmax. 78 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 12 V
Terminal resistanceR 9.6 Ω
Efficiency, max.ηmax. 85 %
No-load speedn0 8200 min⁻¹
No-load currentI0 0.007 A
Stall torqueMH 17.3 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 684 min⁻¹/V
Back-EMF constantkE 1.46 mV/min⁻¹
Torque constantkM 14 mNm/A
Current constantkI 0.072 A/mNm
Slope of n-M curveΔn/ΔM 472 min⁻¹/mNm
Rotor inductanceL 440 µH
Mechanical time constantτm 11 ms
Rotor inertiaJ 2.2 gcm²
Angular accelerationαmax. 78 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 12 V
Terminal resistanceR 9.6 Ω
Efficiency, max.ηmax. 85 %
No-load speedn0 8200 min⁻¹
No-load currentI0 0.007 A
Stall torqueMH 17.3 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 684 min⁻¹/V
Back-EMF constantkE 1.46 mV/min⁻¹
Torque constantkM 14 mNm/A
Current constantkI 0.072 A/mNm
Slope of n-M curveΔn/ΔM 472 min⁻¹/mNm
Rotor inductanceL 440 µH
Mechanical time constantτm 11 ms
Rotor inertiaJ 2.2 gcm²
Angular accelerationαmax. 78 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 12 V
Terminal resistanceR 9.6 Ω
Efficiency, max.ηmax. 85 %
No-load speedn0 8200 min⁻¹
No-load currentI0 0.007 A
Stall torqueMH 17.3 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 684 min⁻¹/V
Back-EMF constantkE 1.46 mV/min⁻¹
Torque constantkM 14 mNm/A
Current constantkI 0.072 A/mNm
Slope of n-M curveΔn/ΔM 472 min⁻¹/mNm
Rotor inductanceL 440 µH
Mechanical time constantτm 11 ms
Rotor inertiaJ 2.2 gcm²
Angular accelerationαmax. 78 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 12 V
Terminal resistanceR 9.6 Ω
Efficiency, max.ηmax. 85 %
No-load speedn0 8200 min⁻¹
No-load currentI0 0.007 A
Stall torqueMH 17.3 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 684 min⁻¹/V
Back-EMF constantkE 1.46 mV/min⁻¹
Torque constantkM 14 mNm/A
Current constantkI 0.072 A/mNm
Slope of n-M curveΔn/ΔM 472 min⁻¹/mNm
Rotor inductanceL 440 µH
Mechanical time constantτm 11 ms
Rotor inertiaJ 2.2 gcm²
Angular accelerationαmax. 78 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 18 V
Terminal resistanceR 25 Ω
Efficiency, max.ηmax. 83 %
No-load speedn0 9000 min⁻¹
No-load currentI0 0.005 A
Stall torqueMH 13.4 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 508 min⁻¹/V
Back-EMF constantkE 1.97 mV/min⁻¹
Torque constantkM 18.8 mNm/A
Current constantkI 0.053 A/mNm
Slope of n-M curveΔn/ΔM 676 min⁻¹/mNm
Rotor inductanceL 800 µH
Mechanical time constantτm 17 ms
Rotor inertiaJ 2.5 gcm²
Angular accelerationαmax. 54 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 18 V
Terminal resistanceR 25 Ω
Efficiency, max.ηmax. 83 %
No-load speedn0 9000 min⁻¹
No-load currentI0 0.005 A
Stall torqueMH 13.4 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 508 min⁻¹/V
Back-EMF constantkE 1.97 mV/min⁻¹
Torque constantkM 18.8 mNm/A
Current constantkI 0.053 A/mNm
Slope of n-M curveΔn/ΔM 676 min⁻¹/mNm
Rotor inductanceL 800 µH
Mechanical time constantτm 17 ms
Rotor inertiaJ 2.5 gcm²
Angular accelerationαmax. 54 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 18 V
Terminal resistanceR 25 Ω
Efficiency, max.ηmax. 83 %
No-load speedn0 9000 min⁻¹
No-load currentI0 0.005 A
Stall torqueMH 13.4 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 508 min⁻¹/V
Back-EMF constantkE 1.97 mV/min⁻¹
Torque constantkM 18.8 mNm/A
Current constantkI 0.053 A/mNm
Slope of n-M curveΔn/ΔM 676 min⁻¹/mNm
Rotor inductanceL 800 µH
Mechanical time constantτm 17 ms
Rotor inertiaJ 2.5 gcm²
Angular accelerationαmax. 54 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 18 V
Terminal resistanceR 25 Ω
Efficiency, max.ηmax. 83 %
No-load speedn0 9000 min⁻¹
No-load currentI0 0.005 A
Stall torqueMH 13.4 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 508 min⁻¹/V
Back-EMF constantkE 1.97 mV/min⁻¹
Torque constantkM 18.8 mNm/A
Current constantkI 0.053 A/mNm
Slope of n-M curveΔn/ΔM 676 min⁻¹/mNm
Rotor inductanceL 800 µH
Mechanical time constantτm 17 ms
Rotor inertiaJ 2.5 gcm²
Angular accelerationαmax. 54 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 18 V
Terminal resistanceR 25 Ω
Efficiency, max.ηmax. 83 %
No-load speedn0 9000 min⁻¹
No-load currentI0 0.005 A
Stall torqueMH 13.4 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 508 min⁻¹/V
Back-EMF constantkE 1.97 mV/min⁻¹
Torque constantkM 18.8 mNm/A
Current constantkI 0.053 A/mNm
Slope of n-M curveΔn/ΔM 676 min⁻¹/mNm
Rotor inductanceL 800 µH
Mechanical time constantτm 17 ms
Rotor inertiaJ 2.5 gcm²
Angular accelerationαmax. 54 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 18 V
Terminal resistanceR 25 Ω
Efficiency, max.ηmax. 83 %
No-load speedn0 9000 min⁻¹
No-load currentI0 0.005 A
Stall torqueMH 13.4 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 508 min⁻¹/V
Back-EMF constantkE 1.97 mV/min⁻¹
Torque constantkM 18.8 mNm/A
Current constantkI 0.053 A/mNm
Slope of n-M curveΔn/ΔM 676 min⁻¹/mNm
Rotor inductanceL 800 µH
Mechanical time constantτm 17 ms
Rotor inertiaJ 2.5 gcm²
Angular accelerationαmax. 54 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 24 V
Terminal resistanceR 52 Ω
Efficiency, max.ηmax. 83 %
No-load speedn0 8400 min⁻¹
No-load currentI0 0.004 A
Stall torqueMH 12.4 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 354 min⁻¹/V
Back-EMF constantkE 2.82 mV/min⁻¹
Torque constantkM 27 mNm/A
Current constantkI 0.037 A/mNm
Slope of n-M curveΔn/ΔM 678 min⁻¹/mNm
Rotor inductanceL 1600 µH
Mechanical time constantτm 11 ms
Rotor inertiaJ 1.6 gcm²
Angular accelerationαmax. 78 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 24 V
Terminal resistanceR 52 Ω
Efficiency, max.ηmax. 83 %
No-load speedn0 8400 min⁻¹
No-load currentI0 0.004 A
Stall torqueMH 12.4 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 354 min⁻¹/V
Back-EMF constantkE 2.82 mV/min⁻¹
Torque constantkM 27 mNm/A
Current constantkI 0.037 A/mNm
Slope of n-M curveΔn/ΔM 678 min⁻¹/mNm
Rotor inductanceL 1600 µH
Mechanical time constantτm 11 ms
Rotor inertiaJ 1.6 gcm²
Angular accelerationαmax. 78 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 24 V
Terminal resistanceR 52 Ω
Efficiency, max.ηmax. 83 %
No-load speedn0 8400 min⁻¹
No-load currentI0 0.004 A
Stall torqueMH 12.4 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 354 min⁻¹/V
Back-EMF constantkE 2.82 mV/min⁻¹
Torque constantkM 27 mNm/A
Current constantkI 0.037 A/mNm
Slope of n-M curveΔn/ΔM 678 min⁻¹/mNm
Rotor inductanceL 1600 µH
Mechanical time constantτm 11 ms
Rotor inertiaJ 1.6 gcm²
Angular accelerationαmax. 78 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 24 V
Terminal resistanceR 52 Ω
Efficiency, max.ηmax. 83 %
No-load speedn0 8400 min⁻¹
No-load currentI0 0.004 A
Stall torqueMH 12.4 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 354 min⁻¹/V
Back-EMF constantkE 2.82 mV/min⁻¹
Torque constantkM 27 mNm/A
Current constantkI 0.037 A/mNm
Slope of n-M curveΔn/ΔM 678 min⁻¹/mNm
Rotor inductanceL 1600 µH
Mechanical time constantτm 11 ms
Rotor inertiaJ 1.6 gcm²
Angular accelerationαmax. 78 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 24 V
Terminal resistanceR 52 Ω
Efficiency, max.ηmax. 83 %
No-load speedn0 8400 min⁻¹
No-load currentI0 0.004 A
Stall torqueMH 12.4 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 354 min⁻¹/V
Back-EMF constantkE 2.82 mV/min⁻¹
Torque constantkM 27 mNm/A
Current constantkI 0.037 A/mNm
Slope of n-M curveΔn/ΔM 678 min⁻¹/mNm
Rotor inductanceL 1600 µH
Mechanical time constantτm 11 ms
Rotor inertiaJ 1.6 gcm²
Angular accelerationαmax. 78 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 24 V
Terminal resistanceR 52 Ω
Efficiency, max.ηmax. 83 %
No-load speedn0 8400 min⁻¹
No-load currentI0 0.004 A
Stall torqueMH 12.4 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 354 min⁻¹/V
Back-EMF constantkE 2.82 mV/min⁻¹
Torque constantkM 27 mNm/A
Current constantkI 0.037 A/mNm
Slope of n-M curveΔn/ΔM 678 min⁻¹/mNm
Rotor inductanceL 1600 µH
Mechanical time constantτm 11 ms
Rotor inertiaJ 1.6 gcm²
Angular accelerationαmax. 78 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 30 V
Terminal resistanceR 97 Ω
Efficiency, max.ηmax. 81 %
No-load speedn0 8700 min⁻¹
No-load currentI0 0.003 A
Stall torqueMH 9.9 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 293 min⁻¹/V
Back-EMF constantkE 3.41 mV/min⁻¹
Torque constantkM 32.6 mNm/A
Current constantkI 0.031 A/mNm
Slope of n-M curveΔn/ΔM 877 min⁻¹/mNm
Rotor inductanceL 2400 µH
Mechanical time constantτm 12.9 ms
Rotor inertiaJ 1.4 gcm²
Angular accelerationαmax. 71 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 30 V
Terminal resistanceR 97 Ω
Efficiency, max.ηmax. 81 %
No-load speedn0 8700 min⁻¹
No-load currentI0 0.003 A
Stall torqueMH 9.9 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 293 min⁻¹/V
Back-EMF constantkE 3.41 mV/min⁻¹
Torque constantkM 32.6 mNm/A
Current constantkI 0.031 A/mNm
Slope of n-M curveΔn/ΔM 877 min⁻¹/mNm
Rotor inductanceL 2400 µH
Mechanical time constantτm 12.9 ms
Rotor inertiaJ 1.4 gcm²
Angular accelerationαmax. 71 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 30 V
Terminal resistanceR 97 Ω
Efficiency, max.ηmax. 81 %
No-load speedn0 8700 min⁻¹
No-load currentI0 0.003 A
Stall torqueMH 9.9 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 293 min⁻¹/V
Back-EMF constantkE 3.41 mV/min⁻¹
Torque constantkM 32.6 mNm/A
Current constantkI 0.031 A/mNm
Slope of n-M curveΔn/ΔM 877 min⁻¹/mNm
Rotor inductanceL 2400 µH
Mechanical time constantτm 12.9 ms
Rotor inertiaJ 1.4 gcm²
Angular accelerationαmax. 71 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 30 V
Terminal resistanceR 97 Ω
Efficiency, max.ηmax. 81 %
No-load speedn0 8700 min⁻¹
No-load currentI0 0.003 A
Stall torqueMH 9.9 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 293 min⁻¹/V
Back-EMF constantkE 3.41 mV/min⁻¹
Torque constantkM 32.6 mNm/A
Current constantkI 0.031 A/mNm
Slope of n-M curveΔn/ΔM 877 min⁻¹/mNm
Rotor inductanceL 2400 µH
Mechanical time constantτm 12.9 ms
Rotor inertiaJ 1.4 gcm²
Angular accelerationαmax. 71 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 30 V
Terminal resistanceR 97 Ω
Efficiency, max.ηmax. 81 %
No-load speedn0 8700 min⁻¹
No-load currentI0 0.003 A
Stall torqueMH 9.9 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 293 min⁻¹/V
Back-EMF constantkE 3.41 mV/min⁻¹
Torque constantkM 32.6 mNm/A
Current constantkI 0.031 A/mNm
Slope of n-M curveΔn/ΔM 877 min⁻¹/mNm
Rotor inductanceL 2400 µH
Mechanical time constantτm 12.9 ms
Rotor inertiaJ 1.4 gcm²
Angular accelerationαmax. 71 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo

Values at 22° and nominal voltageValue
Nominal voltageUN 30 V
Terminal resistanceR 97 Ω
Efficiency, max.ηmax. 81 %
No-load speedn0 8700 min⁻¹
No-load currentI0 0.003 A
Stall torqueMH 9.9 mNm
Friction torqueMR 0.1 mNm
Speed constantkn 293 min⁻¹/V
Back-EMF constantkE 3.41 mV/min⁻¹
Torque constantkM 32.6 mNm/A
Current constantkI 0.031 A/mNm
Slope of n-M curveΔn/ΔM 877 min⁻¹/mNm
Rotor inductanceL 2400 µH
Mechanical time constantτm 12.9 ms
Rotor inertiaJ 1.4 gcm²
Angular accelerationαmax. 71 ·10³rad/s²
Thermal resistanceRth1/Rth2 4 / 27 K/W
Thermal time constantτw1/τw2 4 / 660 s
Operating temperature range -30 ... 85 °C
Winding temperature, max. 125 °C
Housing material steel, zinc galvanized and passivated
Mass 61 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 10000 min⁻¹
Number of pole pairs 1
Magnet material AlNiCo
Operating Area
Operating Area (2233T4.5S)
Recommended operation areas at nominal voltage 4.5 V

The diagram indicates the recommended speed in relation to the available torque at the output shaft for a given ambient temperature of 22°C.
The diagram shows the motor in a completely insulated as well as thermally coupled condition (Rth2 50% reduced).
The nominal voltage (UN) curve shows the operating point at nominal voltage in the insulated and thermally coupled condition. Any points of operation above the curve at nominal voltage will require a higher operating voltage. Any points below the nominal voltage curve will require less voltage.

Characteristic curves of motor
Characteristic curves of motor (2233T4.5S)
Operating Area
Operating Area (2233T006S)
Recommended operation areas at nominal voltage 6 V

The diagram indicates the recommended speed in relation to the available torque at the output shaft for a given ambient temperature of 22°C.
The diagram shows the motor in a completely insulated as well as thermally coupled condition (Rth2 50% reduced).
The nominal voltage (UN) curve shows the operating point at nominal voltage in the insulated and thermally coupled condition. Any points of operation above the curve at nominal voltage will require a higher operating voltage. Any points below the nominal voltage curve will require less voltage.

Characteristic curves of motor
Characteristic curves of motor (2233T006S)
Operating Area
Operating Area (2233T012S)
Recommended operation areas at nominal voltage 12 V

The diagram indicates the recommended speed in relation to the available torque at the output shaft for a given ambient temperature of 22°C.
The diagram shows the motor in a completely insulated as well as thermally coupled condition (Rth2 50% reduced).
The nominal voltage (UN) curve shows the operating point at nominal voltage in the insulated and thermally coupled condition. Any points of operation above the curve at nominal voltage will require a higher operating voltage. Any points below the nominal voltage curve will require less voltage.

Characteristic curves of motor
Characteristic curves of motor (2233T012S)
Operating Area
Operating Area (2233T018S)
Recommended operation areas at nominal voltage 18 V

The diagram indicates the recommended speed in relation to the available torque at the output shaft for a given ambient temperature of 22°C.
The diagram shows the motor in a completely insulated as well as thermally coupled condition (Rth2 50% reduced).
The nominal voltage (UN) curve shows the operating point at nominal voltage in the insulated and thermally coupled condition. Any points of operation above the curve at nominal voltage will require a higher operating voltage. Any points below the nominal voltage curve will require less voltage.

Characteristic curves of motor
Characteristic curves of motor (2233T018S)
Operating Area
Operating Area (2233T024S)
Recommended operation areas at nominal voltage 24 V

The diagram indicates the recommended speed in relation to the available torque at the output shaft for a given ambient temperature of 22°C.
The diagram shows the motor in a completely insulated as well as thermally coupled condition (Rth2 50% reduced).
The nominal voltage (UN) curve shows the operating point at nominal voltage in the insulated and thermally coupled condition. Any points of operation above the curve at nominal voltage will require a higher operating voltage. Any points below the nominal voltage curve will require less voltage.

Characteristic curves of motor
Characteristic curves of motor (2233T024S)
Operating Area
Operating Area (2233T030S)
Recommended operation areas at nominal voltage 30 V

The diagram indicates the recommended speed in relation to the available torque at the output shaft for a given ambient temperature of 22°C.
The diagram shows the motor in a completely insulated as well as thermally coupled condition (Rth2 50% reduced).
The nominal voltage (UN) curve shows the operating point at nominal voltage in the insulated and thermally coupled condition. Any points of operation above the curve at nominal voltage will require a higher operating voltage. Any points below the nominal voltage curve will require less voltage.

Characteristic curves of motor
Characteristic curves of motor (2233T030S)
Precision Gearheads
Accessories
Adapter and cables
Cables and Accessories Series  by FAULHABER
Series Cables and Accessories
-
Drive Electronics
Speed Controllers
SC 1801 P Series  by FAULHABER
Series SC 1801 P
2-Quadrant PWM configurable via PC
SC 1801 S Series  by FAULHABER
Series SC 1801 S
2-Quadrant PWM configurable via PC
SC 2402 P Series  by FAULHABER
Series SC 2402 P
2-Quadrant PWM configurable via PC
SC 2804 S Series  by FAULHABER
Series SC 2804 S
2-Quadrant PWM configurable via PC

Download

pdf
Datasheet
pdf
Technical Information
zip
3D-CAD Files
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
FAULHABER S/G Series 2233 ... S by FAULHABER
Your Choice
Selected Variant
Series 2233T4.5S
Precious Metal Commutation
Key Features
Nominal voltage: 4.5 V
Rated torque up to: 3.4 mNm
No-load speed up to: 8500 min⁻¹
Stall torque up to: 20.2 mNm
Diameter: 22 mm
Length: 32.6 mm
Selected Variant
Series 2233T006S
Precious Metal Commutation
Key Features
Nominal voltage: 6 V
Rated torque up to: 5 mNm
No-load speed up to: 7700 min⁻¹
Stall torque up to: 16 mNm
Diameter: 22 mm
Length: 32.6 mm
Selected Variant
Series 2233T012S
Precious Metal Commutation
Key Features
Nominal voltage: 12 V
Rated torque up to: 5.9 mNm
No-load speed up to: 8200 min⁻¹
Stall torque up to: 17.3 mNm
Diameter: 22 mm
Length: 32.6 mm
Selected Variant
Series 2233T018S
Precious Metal Commutation
Key Features
Nominal voltage: 18 V
Rated torque up to: 4.9 mNm
No-load speed up to: 9000 min⁻¹
Stall torque up to: 13.4 mNm
Diameter: 22 mm
Length: 32.6 mm
Selected Variant
Series 2233T024S
Precious Metal Commutation
Key Features
Nominal voltage: 24 V
Rated torque up to: 4.9 mNm
No-load speed up to: 8400 min⁻¹
Stall torque up to: 12.4 mNm
Diameter: 22 mm
Length: 32.6 mm
Selected Variant
Series 2233T030S
Precious Metal Commutation
Key Features
Nominal voltage: 30 V
Rated torque up to: 4.3 mNm
No-load speed up to: 8700 min⁻¹
Stall torque up to: 9.9 mNm
Diameter: 22 mm
Length: 32.6 mm

Recommended contents

Here you will find external YouTube contents for the article. Click to watch.

I consent to being shown external contents. I am aware that personal data may be shared with third-party platforms. For more information, refer to our privacy policy.