Ewellix - Actuator tool

This calculation tool will give recommendations to configure a CASM or LEMC high performance actuators, based on the application data.
Starting from the user requirements and operating conditions, it will present combinations of linear unit, motor adapter and motor that fulfil them, showing the combination maximum performances versus the requirements and the theoretical lifetime achievable. It’s also possible to select the desired accessories and save a pdf report with the application data, performance requirements and the selected product configuration.

Upload motion profile for CASM & LEMC

Application data

System of measurement:

Select version:

Basic: simple calculation considering only a constant force acting on the actuator and acceleration and deceleration values defined as speed * 2. It does not include payload mass, friction and external forces

Advanced: detailed calculation using all relevant input parameters

Direction of movement:

Angle in °:

Diagonal angle needs to be between 0.0 and 90.0

Friction:

Coefficient of Friction (μ):

Friction coefficient must be between 0.0 and 10.0

With Friction it is possible to define an overall friction force between a moving mass and a sliding surface. The friction force is based on the gravity force F_G due to the specified mass in section Motion Profile and the angle α (see direction of movement). The friction coefficient is the relation between the normal force F_N and the friction force F_R The friction coefficient between two steel plates can be set to 0.1.

Motion profile

Position off-set ()

Input table for motion profile:

Mouseover the parameter name to get more information.


	Move to position	Relative distance	Moving mass	Constant force	Mean force	Speed	Acceleration	Deceleration	Moving time	Pause time	Cycle step time

1
2

Position needs to be between 0 and 2000mm This step has no movement, delete it and try again Moving mass needs to be in the range 0 to 100000kg Force needs to be in the range 0 to 60000N Constant force needs to be between 0 and 60000N Pause time needs to be in the range 0 to 300s Max speed needs to be between 0.0005m/s and 1.060m/s Max acceleration needs to be between 0m/s² and 12.000m/s² Max deceleration needs to be between 0m/s² and 12.000m/s²

Motion profile diagrams:

Mouse over the points to get the actual values

Lifetime calculation

Cycles per hour

Hours per day

Days per year

Number of years required

Lifetime required in n. cycles

Lifetime required in km Lifetime required in mi

Motor selection

Motor brake option

With brake

Without brake

Actuator configuration

Inline

Parallel

Result list

This tool is used to calculate only high-performance actuators CASM and LEMC. For all the other Ewellix actuator, please use the “Product selection” section.

The highlighted solution is the best choice considering performance capacity vs usage.

The parameters you entered do not exactly match the specification of our products. The list below shows the closest results that partly fulfil the requirements. Please contact Ewellix to get a dedicated support.

Section size [mm] Section size [in]	Linear Unit	Screw type	Screw size	Required power [kW]	Motor	Gear Ratio	Force capacity linear unit	Speed capacity motor	Motor torque capacity	Rated motor power [W]	Theoretical lifetime (L₁₀) Theoretical lifetime (L₁₀) capacity
											n. cycles

Details

System information

Linear unit designation:

Motor designation:

Motor brand/type:

Item

Unit

Application requirement

Usage of capability

System capability

Linear unit

Stroke:

Mean force:

Peak force:

Mean linear speed:

Max linear speed:

Max acceleration:

Max deceleration:

Screw lead:

N/A

Linear unit inertia [seen from motor shaft]:

N/A

Boundary dimensions for 3^rd party motor

	adapter mm (in)

In case your selected 3^rd party motor doesn't fit into these dimensions, please contact Ewellix for custom motor adapters

Gearbox

Insert your 3^rd party motor parameters

Max input torque:

Max input speed:

Gearbox inertia [seen from motor shaft]:

N/A

Gear Ratio

N/A

Actuator configuration

N/A

Motor inertia (including brake)

Motor weight (including brake)

Gear Ratio

Motor

Insert your 3^rd party motor parameters

Mean torque:

The value does not meet the minimum requirements

Peak torque:

The value does not meet the minimum requirements

Mean speed:

The value does not meet the minimum requirements

Maximum speed:

The value does not meet the minimum requirements

Motor inertia [seen from motor shaft]:

N/A

Motor inertia (including brake)

Motor weight (including brake)

Gear Ratio

Actuator

Total weight:

Total inertia [seen from motor shaft]:

Load inertia vs Motor inertia ratio:

Motor Torque vs RPM

Mouse over the points to get the actual values

Mouse over the points to get the actual values

Selected actuator with third-party motor

Section size [mm] Section size [in]	Linear Unit	Screw type	Screw size	Motor	Gear Ratio	Speed capacity motor	Force capacity linear unit	Motor torque capacity	Theoretical lifetime (L₁₀) Theoretical lifetime (L₁₀) capacity
									n. cycles

Following estimated nominal motor curve has been calculated

Mouse over the points to get the actual values

Options

Available options for:

Name	Designation	Description

Accessories

To filter the list of accessories by accessory location, click on the appropriate circle.

(Click here to see all accessories)

Mouseover the designation to see the accessory pictures.

* Required

Ordering information

Mouseover the designation to see the pictures.

Name	Designation