11HS1002-14 Datasheet | Unknown Manufacturer

Description Conversion of rotary to linear motion inside a linear actuator is acplished through a threaded nut and lead screw. The inside of the rotor is threaded and the shaft is replaced by a lead screw. In order to generate linear motion the lead screw must be prevented from rotation. As the rotor turns the internal threads engage the lead screw resulting in linear motion. Changing the direction of rotation reverses the direction of linear motion. The motors rotary step angle. The thread pith of the rotor nut and lead screw bination determine the linear travel per step of the motor. The travel length and speed can be digital controlled by the input of data pulses. Moons DLA 11 HS1002-04, is designed as travel of 0.0035mm per step and can be accurately controlled to drive 35mm movement by a 10K data pulses input. Acplishing the conversion of rotary to linear motion inside the rotor greatly simplifies the process of delivering linear motion for many applications. Because the linear actuator is self-contained, the requirements for external ponents such as belts and pulleys are greatly reduced or eliminated. Fewer ponents make the design process easier, reduce overall system cost and size and improve product reliability. Application: Various valve intelligent controls, Telemunication Tuning, as vell as other linear motion control applications. General Specifications Model Number 16HY7001-52 11HS1002-14 Number of leads 4 4 Step Distance mm inch 0.1270 0.0050 0.0035 0.0001 Current Phase 0.48 0.7 Resistance Inductance per Phase per Phase Rotor Inertia ohm m H g.cm2 oz-in2 25 26 11 0.06 4.8 3.4 9 0.05 Motor Mass kg lb. 0.1 0.22 0.12 0.26 Mechanical Dimension A- 76 mm (inch) 16HY7001-52 mm (inch) HYBRID STEPPING MOTORS Dynamic Torque Curves 24V constant current driver Speed Vs Thrust N180 160 140 120 100 80 60 40 20 0 100 10000 (pps) Thrust N 200 160 120 80 40 100 500 1000 2000 3000 4000 5000 6000 (pps) 0.9˚ 2-PHASE 1.8˚...