X .+ .a – WIKA T53 User Manual

6

Parameter

Rel.

Index

FF

Description

Type Store Size

byte

RO /

R/W Min. Max. Default

TAB_X_Y_VALUE23

59

Linearisation .x,y .coordinate .3

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE24

60

Linearisation .x,y .coordinate .4

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE25

61

Linearisation .x,y .coordinate .5

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE26

6

Linearisation .x,y .coordinate .6

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE27

63

Linearisation .x,y .coordinate .7

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE28

64

Linearisation .x,y .coordinate .8

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE29

65

Linearisation .x,y .coordinate .9

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE30

66

Linearisation .x,y .coordinate .30

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE31

67

Linearisation .x,y .coordinate .31

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE32

68

Linearisation .x,y .coordinate .3

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE33

69

Linearisation .x,y .coordinate .33

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE34

70

Linearisation .x,y .coordinate .34

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE35

71

Linearisation .x,y .coordinate .35

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE36

7

Linearisation .x,y .coordinate .36

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE37

73

Linearisation .x,y .coordinate .37

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE38

74

Linearisation .x,y .coordinate .38

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE39

75

Linearisation .x,y .coordinate .39

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE40

76

Linearisation .x,y .coordinate .40

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE41

77

Linearisation .x,y .coordinate .41

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE42

78

Linearisation .x,y .coordinate .4

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE43

79

Linearisation .x,y .coordinate .43

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE44

80

Linearisation .x,y .coordinate .44

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE45

81

Linearisation .x,y .coordinate .45

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE46

8

Linearisation .x,y .coordinate .46

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE47

83

Linearisation .x,y .coordinate .47

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE48

84

Linearisation .x,y .coordinate .48

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE49

85

Linearisation .x,y .coordinate .49

Float .

array

SRC

8

R/W

0, .0

TAB_X_Y_VALUE50

86

Linearisation .x,y .coordinate .50

Float .

array

SRC

8

R/W

0, .0

 .9 .3 .Custom .polynomial .linearisation, .Description

Polynomial .linearisation .can .be .used .on .mV .and .ohmic .input .signals . .Polynomial .linearisation .is .execut-
ed .according .to .the .function .f(x) .= .a

0

.+ .a

1

*x .+ .a



*x



.+ .a

3

*x

3

.+ .a

4

*x

4

, .in .which .a

0

. . .a

4 .

.equal .the .coefficients .

for .a .fourth .order .polynomial .and .x .equals .the .input .value . .This .function .requires .that .the .user .can .ob-
tain .or .calculate .the .coefficients .of .up .to .5 .fourth .order .polynomials . .Various .computer .programs .such .as .
Math .Cad .can .calculate .these .coefficients . .If .the .preceding .text .is .unfamiliar .one .should .use .the .function .
table .linearisation .in .case .of .customer .specific .linearisation . . .
LIN_TYPE .40 .= .“Custom .defined .TC” .generates .a .customer .specific .polynomial .linearisation . .The .func-
tion .is .primarily .suitable .for .specific .thermo .elements .but .also .for .millivolt .signals .if .the .user .can .accept .
to .enter .the .input .and .the .output .values .of .the .polynomial .in .µV .and .°C .respectively . . .
LIN_TYPE .41 .= .“Custom .defined .RTD” .generates .a .customer .specific .polynomial .linearisation . .The .