1 "application" image, 3user interface – Lenze DSD User Manual

3

User interface

3.1

Control and function elements

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Lenze · Drive Solution Designer · Manual · DMS 4.2 EN · 12/2013 · TD23

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• The drawing shows additional information required for a dimensioning process.

• Above the images of the components, important parameters and their values are shown in

tables.

• Below the images of the components, depending on the dimensioning a button is displayed,

via which you can call the diagrams for the component.

3.1.3.1

"Application" image

Symbol

Description

a

max

Max. acceleration of the application

d

dim

Dimensioning diameter

• Diameter which is reached after termination of the acceleration phase.

HW

Winding characteristic (hard/soft), describes the tensile force drop for rewinders as a function

of the reel diameter

J

max

Max. moment of inertia of load

k

f

Tensile force setting range, K

F

= F

max

(d

max

)/F

min

(d

min

)

k

M

Torque setting range, k

M

= M

max

/M

min

l

max

Length of the winding material for a max. reel diameter d

max

and a min. material thickness s

min

m

max,L

Max. mass of the winding material

M

max

Required max. torque of the application

• Is determined from the diagram for the torque.

Mode

Winder control mode

n

av

Average speed of the application

n

max

Max. speed of the application

• Is determined from the diagram for the speed.

P

cto

Base process power of the application used for motor dimensioning

• The base process power is a theoretical value resulting from the max. speed and the max.

torque of the application.

• The base process power often equals the max. required power, since the max. speed and the

max. torque are often required at the same time.

P

max

Required max. power of the application

• Is determined from the diagram for the power.

P

rms,cto

Required thermal power of the motor

q

dim

Dimensioning winding ratio, q

dim

= d

max

/d

min

q

max

Max. winding ratio, q

max

= d

max

/d

min

N(*.dsd)

Number of DSD projects

N

D

Number of drive axes with multi-axis system.
Movement of drive axes

• Axes coordinated

• Axes uncoordinated

t

Crd

Coordinated cycle time

P

mot,max

Max. occurring motor power

P

mot,av

Average power (mean value)

P

gen,av

Required average power of the brake resistor, taking into account the thermal time constant.

P

gen,max

Max. occurring regenerative power