1 conversion formulae, Conversion, Formulae – Lenze 8400 motec User Manual

12

Function library

12.14

LS_Convert_2

482

Lenze · 8400 motec · Reference manual · DMS 4.1 EN · 08/2013 · TD05

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12.14.1

Conversion formulae

The following values are used as factors and divisors for the below-mentioned conversion formulae

depending on the function selected in

C01354/1

:

Alternatively, a scaling can be carried out in the form 2

x

.

• The value for x can be set in

C01353/1

.

• In the Lenze setting "0", no scaling takes place (2

0

= 1).

Related topics:



Scaling of the speed and torque values (Ref from Net)

(AC Drive Profile)

Function (C01354/1)

Factor

Divisor

0 1 ==> 1 ==> 1

1

1

1 1 Hz ==> % (C11) ==> 1 Hz

1638400

2 * (

C00011

[rpm] / 60) * number of pole pairs

(with number of pole pairs =

C00089

* 60 /

C00087

)

2 0.1 Hz ==> % (C11) ==> 0.1 Hz

163840

3 0.01 Hz ==> % (C11) ==> 0.01 Hz

16384

4 0.001 Hz ==> % (C11) ==> 0.001 Hz

1638

5 1 rpm ==> % (C11) ==> 1 rpm

16384

C00011

[rpm]

6 0.1 rpm ==> % (C11) ==> 0.1 rpm

1638

7 0.01 rpm ==> % (C11) ==> 0.01 rpm

164

8 0.001 rpm ==> % (C11) ==> 0.001 rpm

16

9 1 A ==> % (C22) ==> 1 A

1638400

C00022

[A] * 100

10 0.1 A ==> % (C22) ==> 0.1 A

163840

11 0.01 A ==> % (C22) ==> 0.01 A

16384

12 0.001 A ==> % (C22) ==> 0.001 A

1638

13 1 Nm ==> % (C57) ==> 1 Nm

16384

C00056

[Nm]

14 0.1 Nm ==> % (C57) ==> 0.1 Nm

16384

C00056

[Nm] * 10

15 0.01 Nm ==> % (C57) ==> 0.01 Nm

16384

C00056

[Nm] * 100

16 0.001 Nm ==> % (C57) ==> 0.001 Nm

1638

17 ACDP ==> CAN ==> ACDP

-

-

18 x C471_1 / C471_2

C00471/1

C00471/2

19 Act position 32bit ==> 16Bit

-

-



Note!

The scaling is carried out as "shift operation". Overflows are not absorbed!

Setting

C01353/1

General conversion formulae

0

(Lenze setting)

> 0

< 0

Out1 [%]

In1 Factor

Divisor

------------------

⋅

=

Out2

In2 [%] Divisor

Factor

------------------

⋅

=

Out1 [%]

In1

2

x

-------- Factor

Divisor

------------------

⋅

=

Out2

In2 [%] 2

x

Divisor

Factor

------------------

⋅

⋅

=

Out1 [%]

In1 2

x

Factor

Divisor

------------------

⋅

⋅

=

Out2

In2 [%]

2

x

------------------ Divisor

Factor

------------------

⋅

=