9 pr_cust_lin block parameter list – WIKA T53 User Manual

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2.9 PR_CUST_LIN Block Parameter List

 .9 .1 .Linear .interpolation .linearisation, .Description

LinType .1 .= .“Linearisation .Table” .generates .a .customer .specific .linear .interpolation .linearisation . .Linear .
interpolation .linearisation .can .be .used .on .mV, .ohmic .and .potentiometer .signals .The .linear .interpolation .
linearisation .is .defined .by .straight .lines .drawn .between .the .entered .X ./ .Y .(input ./ .output) .coordinates . .
The .linearisation .table .must .consist .of .10 .to .50 .coordinate .sets . .The .X .values .of .the .coordinates .must .
be .entered .in .ascending .order . .The .lowest .and .highest .X .values .function .as .the .lower .and .the .upper .lim-
it .respectively . .All .X .values .must .be .entered .as .µV, .Ohm .or .% .for .Voltage, .Resistance .or .Potentiometer .
measurements .in .that .order . .The .table .output .will .be .converted .to .actual .chosen .PRMARY_VALUE_UNIT .
(Example: .1000 ./ .3000 .as .X ./ .Y .values: .output .will .read .3,00 .if .PRIMARY_VALUE_UNIT .is .set .to .“mV” .
and .1 .mV .is .connected .to .input) .

 .9 . .Linear .Interpolation .Linearisation, .Parameter .List . .

Parameter

Rel.

Index

FF

Description

Type Store Size

byte

RO /

R/W Min. Max. Default

TAB_MIN_NUMBER

34

Minimum .number .of .linearisation .points .allowed .(10)

Un-

signed .

8

N

1

RO

10

TAB_MAX_NUMBER

35

Maximum .number .of .linearisation .points .allowed .(50)

Un-

signed .

8

N

1

RO

50

TAB_ACTUAL_NUMBER

36

Number .of .linearisation .points .in .the .linearisation .table .

Un-

signed .

8

SRC

1

R/W

11

TAB_X_Y_VALUE1

37

Linearisation .x,y .coordinate .1

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE2

38

Linearisation .x,y .coordinate .

Float .

array

SRC

8

R/W

1000, .

100

TAB_X_Y_VALUE3

39

Linearisation .x,y .coordinate .3

Float .

array

SRC

8

R/W

000, .

00

TAB_X_Y_VALUE4

40

Linearisation .x,y .coordinate .4

Float .

array

SRC

8

R/W

3000, .

300

TAB_X_Y_VALUE5

41

Linearisation .x,y .coordinate .5

Float .

array

SRC

8

R/W

4000, .

400

TAB_X_Y_VALUE6

4

Linearisation .x,y .coordinate .6

Float .

array

SRC

8

R/W

5000, .

500

TAB_X_Y_VALUE7

43

Linearisation .x,y .coordinate .7

Float .

array

SRC

8

R/W

6000, .

600

TAB_X_Y_VALUE8

44

Linearisation .x,y .coordinate .8

Float .

array

SRC

8

R/W

7000, .

700

TAB_X_Y_VALUE9

45

Linearisation .x,y .coordinate .9

Float .

array

SRC

8

R/W

8000, .

800

TAB_X_Y_VALUE10

46

Linearisation .x,y .coordinate .10

Float .

array

SRC

8

R/W

9000, .

900

TAB_X_Y_VALUE11

47

Linearisation .x,y .coordinate .11

Float .

array

SRC

8

R/W

10000, .

1000

TAB_X_Y_VALUE12

48

Linearisation .x,y .coordinate .1

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE13

49

Linearisation .x,y .coordinate .13

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE14

50

Linearisation .x,y .coordinate .14

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE15

51

Linearisation .x,y .coordinate .15

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE16

5

Linearisation .x,y .coordinate .16

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE17

53

Linearisation .x,y .coordinate .17

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE18

54

Linearisation .x,y .coordinate .18

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE19

55

Linearisation .x,y .coordinate .19

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE20

56

Linearisation .x,y .coordinate .0

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE21

57

Linearisation .x,y .coordinate .1

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE22

58

Linearisation .x,y .coordinate .

Float .

array

SRC

8

R/W

0, .0