Fast and intuitive dimensioning with TwinCAT 3 Motion Designer TE5910: Four steps to your linear motor solution.

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### TE5910 | TwinCAT 3 Motion Designer

The dimensioning of drive axes, in conjunction with the optimum selection of motor, gear unit, drive controllers and accessories, is the basis for efficient machine design. The TwinCAT 3 Motion Designer is optionally integrated in the TwinCAT automation platform, or it can be used as a stand-alone project engineering tool for mechanical design.

### AL8021 | Linear servomotor, 120 N (F_{max}), convection

The AL8021 linear servomotor is suitable for highly dynamic, powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept provide maximum force density in the smallest installation space. The overall length of the primary part is 93 mm. The AL8021 reaches a maximum speed of 12 m/s at a peak force F_{max} of 120 N. Cooling is by convection.

### AL8022 | Linear servomotor, 240 N (F_{max}), convection

The AL8022 linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 143 mm. The AL8022 attains a maximum velocity of 12 m/s with a peak force F_{max} of 240 N. Cooling is by convection.

### AL8024 | Linear servomotor, 480 N (F_{max}), convection

The AL8024 linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 239 mm. The AL8024 attains a maximum velocity of 12 m/s with a peak force F_{max} of 480 N. Cooling is by convection.

### AL8026 | Linear servomotor, 720 N (F_{max}), convection

The AL8026 linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 335 mm. The AL8026 attains a maximum velocity of 10 m/s with a peak force F_{max} of 720 N. Cooling is by convection.

### AL8041 | Linear servomotor, 230 N (F_{max}), convection/water cooling

The AL8041 linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 93 mm. The AL8041 attains a maximum velocity of 7 m/s with a peak force F_{max} of 230 N. Convection cooling is used as standard. In addition, all AL804x primary parts have cooling channels for optional water cooling.

### AL8042 | Linear servomotor, 460 N (F_{max}), convection/water cooling

The AL8042 linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 143 mm. The AL8042 attains a maximum velocity of 7 m/s with a peak force F_{max} of 460 N. Convection cooling is used as standard. In addition, all AL804x primary parts have cooling channels for optional water cooling.

### AL8043 | Linear servomotor, 690 N (F_{max}), convection/water cooling

The AL8043 linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 191 mm. The AL8043 attains a maximum velocity of 7 or 3.5 m/s with a peak force F_{max} of 690 N. Convection cooling is used as standard. In addition, all AL804x primary parts have cooling channels for optional water cooling.

### AL8044 | Linear servomotor, 920 N (F_{max}), convection/water cooling

The AL8044 linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 239 mm. The AL8044 attains a maximum velocity of 7 or 3.5 m/s with a peak force F_{max} of 920 N. Convection cooling is used as standard. In addition, all AL804x primary parts have cooling channels for optional water cooling.

### AL8045 | Linear servomotor, 1150 N (F_{max}), convection/water cooling

The AL8045 linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 287 mm. The AL8045 attains a maximum velocity of 7 or 3.5 m/s with a peak force F_{max} of 1150 N. Convection cooling is used as standard. In addition, all AL804x primary parts have cooling channels for optional water cooling.

### AL8046 | Linear servomotor, 1380 N (F_{max}), convection/water cooling

The AL8046 linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 335 mm. The AL8046 attains a maximum velocity of 7 or 3.5 m/s with a peak force F_{max} of 1380 N. Convection cooling is used as standard. In addition, all AL804x primary parts have cooling channels for optional water cooling.

### AL8048 | Linear servomotor, 1840 N (F_{max}), convection/water cooling

The AL8048 linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 436 mm. The AL8048 attains a maximum velocity of 7 or 3.5 m/s with a peak force F_{max} of 1840 N. Convection cooling is used as standard. In addition, all AL804x primary parts have cooling channels for optional water cooling.

### AL8064 | Linear servomotor, 1800 N (F_{max}), convection

The AL8064 linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 239 mm. The AL8064 attains a maximum velocity of 6 or 3 m/s with a peak force F_{max} of 1800 N. Cooling is by convection.

### AL8065 | Linear servomotor, 2250 N (F_{max}), convection

The AL8065 linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 287 mm. The AL8065 attains a maximum velocity of 6 or 3 m/s with a peak force F_{max} of 2250 N. Cooling is by convection.

### AL8066 | Linear servomotor, 2700 N (F_{max}), water cooling

The AL8066 linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 350 mm. The AL8066 attains a maximum velocity of 6 or 3 m/s with a peak force F_{max} of 2700 N. Cooling is by water.

### AL806A | Linear servomotor, 4500 N (F_{max}), convection/water cooling

The AL806A linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space and is available both convection-cooled and water-cooled. The length of the primary part depends on the cooling and is 532 mm for convection and 542 mm for water cooling. The AL806A attains a maximum velocity of 6 or 3 m/s with a peak force F_{max} of 4500 N.

### AL806B | Linear servomotor, 4950 N (F_{max}), water cooling

The AL806B linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 590 mm. The AL806B attains a maximum velocity of 3 m/s with a peak force F_{max} of 4950 N. Cooling is by water.

### AL806F | Linear servomotor, 6750 N (F_{max}), water cooling

The AL806F linear servomotor is suitable for highly dynamic and powerful linear axes with a pole pair distance of 24 mm. The optimized product design and the modular coil concept enable maximum force density in the smallest mounting space. The length of the primary part is 782 mm. The AL806F attains a maximum velocity of 6 or 3 m/s with a peak force F_{max} of 6750 N. Cooling is by water.

### AL8521-0000-0000 | Magnetic plate overall width W2, secondary part for AL8x2x, length 96 mm

The secondary parts of the AL8000 are absolutely necessary for the function of the linear motor. The sturdy magnetic plates are available in two or three lengths depending on the width. The magnetic plates can be combined as desired within one width, as they all have a pole pair distance of 24 mm.

### AL8522-0000-0000 | Magnetic plate overall width W2, secondary part for AL8x2x, length 144 mm

The secondary parts of the AL8000 are absolutely necessary for the function of the linear motor. The sturdy magnetic plates are available in two or three lengths depending on the width. The magnetic plates can be combined as desired within one width, as they all have a pole pair distance of 24 mm.

### AL8523-0000-0000 | Magnetic plate overall width W2, secondary part for AL8x2x, length 384 mm

The secondary parts of the AL8000 are absolutely necessary for the function of the linear motor. The sturdy magnetic plates are available in two or three lengths depending on the width. The magnetic plates can be combined as desired within one width, as they all have a pole pair distance of 24 mm.