App index, Four arthmetc operaton, Power and other computatons – Yokogawa µR10000 User Manual

Page 188

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9-5

IM 04P01B01-01E

Operat

ons
Related

to

the
Computat

on

Funct

on

(/M1
Opt
on)

9.2 Settng the Computng Equaton

1

2

3

4

5

6

7

8

9

10

11

12

App

Index

• Status of the Remote Control Input Termnal (D01 to D05, /R1 opton)

The status of the remote control input signal (1 or 0) can be used in the computation.

Use D01 to D05 (the number following the letter D is the remote control input terminal
number) to specify the status in the equations.

Four Arthmetc Operaton

The data that can be used in equations are measured values, computed values,
constants, communication input data, and remote control input terminal status.

Equaton Examples

• Addition 01+02
(Determines the sum of the measured values of channel 1 and channel

2.)

• Subtraction 01–02
(Determines the difference of the measured values of channel 1 and

channel 2.)

• Multiplication 01*K03
(Multiplies constant K03 to the measured value of channel 1.)
• Division 01/K02
(Divides the measured value of channel 1 by constant K02.)

Note

By setting an equation similar to the one shown below, you can determine the accumulation
of a specified channel (in this case channel 01) and make the result the computed value of
computation channel 0A.
Computing equation of computation channel 0A: 0A+01

Power and Other Computatons

The data that can be used in equations are measured values, computed values,
constants, communication input data, and remote control input terminal status. You can
nest a computing element inside the parentheses of another computing element.

Equaton Examples

• Power

01**02

(Determines the measured value of channel 1 to the power of
the measured value of channel 2.)

• Square root

SQR(02)

(Determines the square root of the measured value of channel
2.)

• Absolute value

ABS(02)

(Determines the absolute value of the measured value of
channel 2.)

• Common logarithm

LOG(01)

(Determines the common logarithm (log

10

) of the measured

value of channel 1.)

• Exponent

EXP(01)

(Determines e to the power of the measured value of channel 1.)

Note

You can determine the natural logarithm by setting an equation like the following.
From log

b

X = log

a

X/log

a

, we obtain log

e

X = log

10

X/log

10

e

Hence, to determine the natural logarithm of channel 1, we set
Constant

K01 = 0.43429(log

10

e), and

Computing equation

LOG(01)/K01.

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