DC Linear Actuator L16-50-63-12-P

The Actuonix L16 series of linear actuators are compact DC motors geared to push or pull loads along the stroke of the actuator. This actuator comes with a built-in potentiometer, allowing your application to monitor the actuator’s position.

The 3573 linear actuator has a stroke length of 50mm and a 63:1 gearbox. It is able to move at a rate of 20 mm/s and can exert up to 75N of force at lower speeds.

Comes packaged with

  • Two mounting clamps
  • Two mounting brackets
  • Two rod end options: a clevis end and a threaded end with nut

Connection

In order to connect this actuator to a terminal block, you’ll need to cut off the 5-pin connector and strip the wires. For more details, see the “Compatible Products” tab.

Warning

This actuator does not have built-in limit switches, so you may damage the motor or gears if you run the actuator beyond its minimum or maximum stroke. We recommend using the actuator’s built-in potentiometer in your program to ensure that the motor is shut off whenever the potentiometer voltage gets close to 0V or 5V. Have a look at the “Resources” tab for a link to a project that implements a control loop using the potentiometer value.

Product Specifications

Motor Properties
Motor Type DC Linear Actuator
Stroke Length 50 mm
Maximum Speed 20 mm/s
Peak Power Point (@ 10 mm/s) 75 N
Peak Efficiency Point (@ 15 mm/s) 38 N
Gear Ratio 63:1
Positional Error Max 300 ?¼m
Electrical Properties
Rated Voltage 12 V DC
Potentiometer Impedance 9 k?©
Physical Properties
Gear Train Material Metal
Backdrive Force 46 N
Side Force Max 40 N
Wire Length 350 mm
Weight 56 g
Operating Temperature Min -10 ?°C
Operating Temperature Max 50 ?°C
IP Rating IP54

DC Motor Controllers

You’ll need a motor controller to get control of the position of this actuator. In order to connect it to a controller, attach the red wire to the “+” terminal on the controller, and the black wire to the “-” terminal.

If you decide to use a motor controller with an analog input, you can connect the integrated potentiometer by soldering the wires to a Phidget cable and connecting it to the input. If you decide to use a stand-alone motor controller, you’ll also need a device with an analog input to read the potentiometer.

Product Controller Properties Electrical Properties Board Properties
Part Number Number of Motor Ports Velocity Resolution Acceleration Resolution Continuous Motor Current Max Controlled By
1064_1B 2 0.79 % Duty Cycle 1.9 % Duty Cycle/s (per motor) 14 A USB (Mini-USB)
1065_0B 1 0.39 % Duty Cycle 24.5 % Duty Cycle/s 5 A USB (Mini-USB)
DCC1000_0 1 0.001 % Duty Cycle 1 % Duty Cycle/s 25 A VINT

Phidget Cables

To easily connect the internal potentiometer to an IO board we recommend you use a Phidget cable. Just cut off the ends of one of the cables and connect the red wire to potentiometer power, the black wire to potentiometer ground, and the white wire to the potentiometer wiper as described in the table below. You can solder multiple cables together in order to make even longer Phidget cables, but you should be aware of the effects of having long wires in your system.

Wire Color Function
Orange Potentiometer Ground
Purple Potentiometer Wiper
Red Actuator Motor Power
Black Actuator Motor Ground
Yellow Potentiometer Power

Product Physical Properties
Part Number Cable Length
3002_0 600 mm
3003_0 100 mm
3004_0 3.5 m
3034_0 150 mm
3038_0 1.2 m
3039_0 1.8 m

If you want an actuator with different specifications you can compare them all below:

Product Motor Properties Electrical Properties Physical Properties
Part Number Stroke Length Maximum Speed Peak Power Point Rated Voltage Weight
3545_0 150 mm 24 mm/s 350 N 24 V DC 995 g
3546_0 150 mm 10 mm/s 750 N 24 V DC 1 kg
3547_0 300 mm 24 mm/s 350 N 24 V DC
Alternative Units:
2.7