Other programming, 2 scale – Omega RD200 User Manual

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11. OTHER PROGRAMMING

11.2 Scale

“Scale” programming is necessary to display a voltage input from a converter, etc. with an actual scale. However,
the scale is programmed with the same characteristic scale (not linearized scale) as the voltage input. This
programming is also necessary when the decimal point position is changed in thermocouple or resistance
thermometer input channels. Press and simultaneously in the operation screen to display the
“scale” programming.

1

Programming Scale

This is the actual scale (physical quantity) programming for
the printing range being programmed in the [Range/Printing
range].

2

Printing range will be copied

When programming the [Range/Printing range], the printing
range is copied to the programming value of the scale.

If the scale copied from the printing range is used, the decimal
point positions programmed by the printing range are neglected
and the measured values with decimal point positions fixed by
range number are displayed. The following table shows the
cautions to be observed according to the input types.

Range No.03 (

±69 mV)

Printing range: Changing the
programming from “0 to 50 (mV)” to “0
to 100 (litter/min)

Voltage ranges

Temperature ranges

Scale programming is not required when the scale is
equal to the printing range. They are copied to scale
programming, but be careful with the decimal point
positions for the scale. See item

3

.

Since the printing range is copied to the scale, no
programming scale is necessary, but the decimal point
position of the measured value is fixed by the range
number. For changing the decimal places, refer to

3

.

3

Example of Decimal Point Programming

Voltage range

Temperature ranges

(1) When the printing range is equal to the scale;

(1) To move the decimal point to higher digit

Range/Printing

range

Scale

programming

An example of

measured values

Notes

Range/Printing

range

Scale

programming

An example of

measured values

Notes

0.0 to 50.0

5.00

1

23/0 to 1200

0.0 to 1200..0

850.0

03/0.0 to 50.0

0 to 50

5

23/0.0 to 1200.0

0.0 to 1200.0

850 1

03/0 to 50

0.0 to 50.0

5.0

2

Note 1: Decimal point position of the measured value is

fixed by range number when the printing range
is equal to the scale.

(2) To move the decimal point to lower digit

Range/Printing

range

Scale

programming

An example of

measured values

Notes

0 to 200

120.0

25/0 to 200

0 to 200.0

120

1

Note 1: Decimal point position of the measured value is fixed

by range number when the printing range is equal to
the scale.

Note 2: Decimal point positions of the programmed scale

become effective because different decimal place are
programmed on printing range and scale. See item
(2).

(2) When the scale is programmed with a different value from

the printing range.
The decimal point position of the programmed scale
becomes effective.

Note 1: Due to the decimal point
position

rule.

If the decimal point positions of the lower-limit and higher

-

limit values are different, the lower decimal point

position is adopted. <Example> 0.00 to 100.0 0.0 to 100.0

The [Copy] function is convenient. See Section 11.14.

Measuring range

(mV)

Printing range

(mV)

Calibration

-69

0

69

0

50

Programmed scale

0

20

40 60 80

100

Concept of scale programming

Decimal point position rule.

Remarks

For programming the same scale to the other channels;

SHIFT

4

SCALE

Remarks

Remarks