WIKA T53 User Manual

17

TAB_XY_VALUE5 . .

= .0,8; .300 .

TAB_XY_VALUE6 . .

= .1,6; .400 .

TAB_XY_VALUE7 . .

= .3,; .500 .

TAB_XY_VALUE8 . .

= .6,4; .600 .

TAB_XY_VALUE9 . .

= .1,8; .700 .

TAB_XY_VALUE10 . .

= .5,6; .800

(Output .will .readout .35% .with .1,0% .potentiometer .value)

 .6 .13 .Measurement .of .TC .(with .Custom .Polynomial .Linearisation) .on .sensor .1

PRIMARY_VALUE_UNIT .

= .K, .°C, .°F .or .°R . .

LIN_TYPE .

= .Custom .defined .TC .

LIN_TYPE_ .

= .N/A .(ignored .in .setup .check) . .

SENSOR_MEAS_TYPE .

= .PV .= .SV_1, .SV_ .not .available .

SENSOR_CONNECTION . = .N/A .(ignored .in .setup .check) . .
SENSOR_CONNECTION_ .= .N/A .(ignored .in .setup .check) . .
RJ_TYPE .

= .No .Reference .Junction, .Internal, .External .(constant .value) .or . .

.

. Sensor .-wire .or .Sensor .3-wire . .

Connections:

Now .enter .the .Custom .TC .parameters .in .PR_CUST_LIN .Block .(PA .Slot .4) . .See . .9 .4 .Custom .
Polynomial .Linearisation, .Parameter .List .for .further .details . .
Remember .to .enter .values .for .the .RJ .polynomial .if .RJ_TYPE .is .any .value .other .than .“No .ref-
erence .Junction” . .
Example: .
The .parameters .and .coefficients .for .converting .a .special .TC .to .a .linear .temperature .signal .

CUSTOM_TC_NAME .

= .Custom .TC .Example .

CUSTOM_TC_POLY_COUNT . = .5 .
CUSTOM_TC_MIN_IN .

= .-6500 .0 .

CUSTOM_TC_MIN_OUT .

= .-100 .0 .

CUSTOM_TC_MAX_OUT .

= .100 .0

A .TC .input .of .5000 .µV .and .an .RJ .temperature .of .5ºC .will .make .POLY_3 .the .active .and .the .
output .will .be: .
U

RJ

.= .-3 .94 .* .10

-1

.+ .3 .94 .* .10

1

.* .5 .+ . .65 .* .10

-

.* .5



.- .1 .11 .* .10

-4

.* .5

3

.= .1000 .µV

This .voltage .is .to .be .added .to .the .TC .voltage .(5000 .+ .1000), .and .the .resulting .temperature .will .be: .
4 .18 .+ . .6 .* .10

-

.* .6000 .+ .1 .41 .* .10

-7

.* .6000



.+ .1 .50 .* .10

-11

.* .6000

3

.- .1 .35 .* .10

-15

.* .6000

4

.= .146 .3 .°C .

See . . .9 .3 .Custom .polynomial .linearisation, .Description .for .formula .and .further .details .

CUSTOM_TC_POLY_X

max . .input .

limit .in .µV .

for .POLY_X

4th .degree .

coefficient .

for .POLY_X

3th .degree .

coefficient .

for .POLY_X

th .degree .

coefficient .

for .POLY_X

1st .degree .

coefficient .

for .POLY_X

0 .degree .

coefficient .

for .POLY_X

CUSTOM_TC_POLY_1

-300 .0

-3 .84E-13

-5 .65E-9

-3 .36E-5

-6 .10E-

-8 .44E1

CUSTOM_TC_POLY_

3500 .0

-8 .13E-15

7 .9E-11

-4 .18E-7

 .53E-

-1 .08E-

CUSTOM_TC_POLY_3

10000 .0

-1 .35E-15

1 .50E-11

1 .41E-7

 .6E-

4 .18

CUSTOM_TC_POLY_4

30000 .0

3 .49E-18

 .19E-1

-1 .53E-7

 .68E-

-9 .6

CUSTOM_TC_POLY_5

70000 .0

6 .7E-17

-8 .76E-1

5 .34E-7

8 .69E-3

1 .65E

3th .degree . .

coefficient

th .degree . .

coefficient

1st .degree . .

coefficient

0 .degree . .

coefficient

CUSTOM_TC_RJ_POLY

-1 .11E-4

 .65E-

3 .94E1

3 .94E-1